Numerous research conducted in recent years has revealed that gut microbial dysbiosis,such as modifications in composition and activity,might influence lung tissue homeostasis through specific pathways,thereby promoti...Numerous research conducted in recent years has revealed that gut microbial dysbiosis,such as modifications in composition and activity,might influence lung tissue homeostasis through specific pathways,thereby promoting susceptibility to lung diseases.The development and progression of lung cancer,as well as the effectiveness of immunotherapy are closely associated with gut flora and metabolites,which influence immunological and inflammatory responses.During abnormal proliferation,non-small cell lung cancer cells acquire more substances and energy by altering their own metabolic pathways.Glucose and amino acid metabolism reprogramming provide tumor cells with abundant ATP,carbon,and nitrogen sources,respectively,providing optimal conditions for tumor cell proliferation,invasion,and immune escape.This article reviews the relationship of immune response with gut flora and metabolic reprogramming in non-small cell lung cancer,and discusses the potential mechanisms by which gut flora and metabolic reprogramming affect the occurrence,development,and immunotherapy of non-small cell lung cancer,in order to provide new ideas for precision treatment of lung cancer patients.展开更多
Background:Liver injury often occurs but with limited drugs.Chaenomeles has a potent hepatoprotective effect,while the ability of Chaenomeles speciosa and Chaenomeles sinensis to treat liver injury in rats is unexplor...Background:Liver injury often occurs but with limited drugs.Chaenomeles has a potent hepatoprotective effect,while the ability of Chaenomeles speciosa and Chaenomeles sinensis to treat liver injury in rats is unexplored.Methods:The study involved 30 rats divided into five groups:negative control(NC),model control(MC),positive control(PC),Chaenomeles speciosa-delivered(ZP),and Chaenomeles sinensis-delivered(GP).Fecal samples from all groups were collected 24 h post-modeling for intestinal flora analysis.All rats were collected serum and liver tissues for biochemical and histopathological examinations,among other experiments.Chaenomeles would be effective in CCl4-induced liver injury in rats by analyzing the efficacy and mechanism and examining the differences between Chaenomeles speciosa and Chaenomeles sinensis through oxidative stress,inflammation,and apoptosis pathways.Then,we resolved the mechanism of action in the context of the intestinal flora.Results:The results showed that Chaenomeles intake improved the degree of CCl4-induced liver injury,decreased aspartate aminotransferase,alanine aminotransferase,and alkaline phosphatase levels,and increased total protein and total bilirubin levels.Noteworthy,the glutathione level in the GP group surpassed that a 1.5-fold increase compared to the PC group.Chaenomeles speciosa could exert its efficacy by regulating inflammatory and apoptotic pathways,while Chaenomeles speciosa did so through the oxidative stress pathway.In addition,Chaenomeles are both able to modulate intestinal flora and change the ratio of flora.Chaenomeles speciosa could regulate probiotics and prevent liver injury by altering the distribution and ratio of intestinal flora.Specifically,Lactobacillaceae in the ZP group exhibited 10-fold higher abundance than the other groups.Chaenomeles speciosa increased the abundance of probiotic Clostridiales butyricum in diseased rats,while Chaenomeles sinensis increased the abundance of pathogenic Escherichia Shigella.Conclusion:This study suggests that Chaenomeles may be hepatoprotective by oxidative stress,inflammation,and apoptosis pathways and modulating the composition and function of the intestinal flora.展开更多
BACKGROUND The intestinal flora(IF)has been linked to risks of non-communicable diseases,especially various cancers,stroke,and Alzheimer’s disease.However,many uncertainties of these associations during different sta...BACKGROUND The intestinal flora(IF)has been linked to risks of non-communicable diseases,especially various cancers,stroke,and Alzheimer’s disease.However,many uncertainties of these associations during different stages of growth,deve-lopment,and aging still exist.Therefore,further in-depth explorations are warranted.AIM To explore the associations of the human IF with disease risks during different stages of growth,development,and aging to achieve more accurate and con-vincing conclusions.METHODS Cohort,cross-sectional,case-control,and Mendelian randomization studies published in the PubMed and Web of Science databases until December 31,2023 were systematically reviewed to clarify the associations of the IF at the genus level with the risks of various non-communicable diseases,which were grouped in accordance with the 10^(th) revision of the International Classification of Diseases.RESULTS In total,57 studies were included to quantitatively examine the influence of the IF on the risks of 30 non-communicable diseases during different stages of growth,development,and aging.Population studies and Mendelian randomization studies confirmed positive associations of the abundances of Bifidobacterium and Ruminococcus with multiple sclerosis.CONCLUSION These findings contribute to a deeper understanding of the roles of the IF and provide novel evidence for effective strategies for the prevention and treatment of non-communicable diseases.In the future,it will be necessary to explore a greater variety of research techniques to uncover the specific mechanisms by which gut microbiota trigger diseases and conduct in-depth studies on the temporal relationship between microbiota alterations and diseases,so as to clarify the causal relationship more accurately.展开更多
The gut microbiota and it’s metabolism are vital targets of probiotics regulating high fat-diet(HFD)induced hyperlipidemia,which can relieve the pressure caused by the striking growth of sub-health people.Pediococcus...The gut microbiota and it’s metabolism are vital targets of probiotics regulating high fat-diet(HFD)induced hyperlipidemia,which can relieve the pressure caused by the striking growth of sub-health people.Pediococcus pentosaceus PP04(PP04)could colonize in intestine to regulate gut microbiota and it’s metabolites directly,the rebalanced intestinal flora mediated by PP04 could facilitate the secretion of short chain fatty acids to control body weight gain,PP04 intervention also changed bile acid(BA)profiles and enhanced the ileal concentrations of antagonists including tauro-α/β-muricholic acid sodium salt and ursodeoxycholic acid to inhibit intestinal farnesoid X receptor/fibroblast growth factor 15(FXR/FGF15)signaling coupled with the activation of hepatic FXR/small heterodimer partners signaling,which accelerated the hepatic BA de novo synthesis and excretion with feces to eliminate HFD caused hyperlipemia effectively.This study provided important evidence regarding PP04 as dietary supplement to relieve hyperlipidemia by influencing BA enterohepatic circulation.展开更多
BACKGROUND Intestinal injury is the most common complication of sepsis,and the mitigation of intestinal damage is crucial for treating sepsis.AIM To examine the use of ozone-rich water and its action in preventing int...BACKGROUND Intestinal injury is the most common complication of sepsis,and the mitigation of intestinal damage is crucial for treating sepsis.AIM To examine the use of ozone-rich water and its action in preventing intestinal damage caused by sepsis.METHODS Through histological analysis,immunohistochemistry,immunofluorescence assays,and Western blot detection,we evaluated the therapeutic efficacy of ozone in mitigating intestinal injury during sepsis.Additionally,by conducting 16S rRNA sequencing and untargeted metabolomics analysis on fecal samples,we identified alterations in the gut microbiota and specific metabolites in septic mice following ozone treatment.This comprehensive approach aims to further elucidate the mechanistic underpinnings of ozone therapy in alleviating sepsis-induced intestinal damage.RESULTS Our results demonstrate that ozonated water significantly ameliorates pathological damage in intestinal tissues,enhances the expression of tight junction proteins,and inhibits the polarization of intestinal macrophages,thereby reducing the expression of inflammatory cytokines in intestinal tissues of cecal ligation and puncture-induced septic mice.16S rRNA sequencing analysis revealed that ozonated water increased the abundance of beneficial bacteria and alleviated gut microbiota dysbiosis.Studies using broad-spectrum antibiotic-treated mice indicated that the protective effects of ozonated water on intestinal injury are dependent on the gut microbiota.Furthermore,metabolomic analysis identified an increase in the tryptophan metabolite DL-tryptophan in the ozonated water treatment group.This suggests that ozonated water protects against intestinal injury by activating the aryl hydrocarbon receptor and suppressing necroptosis in intestinal epithelial cells.CONCLUSION Ozone protected against sepsis-induced intestinal injury through regulation of the gut microbiota and tryptophan metabolism,inhibiting necrotic apoptosis of intestinal epithelial cells through activation of the aryl hydrocarbon receptor.展开更多
This study established a rapid extraction method for the 16S rRNA gene of intestinal flora.Combined with nextgeneration sequencing(NGS)technology,this method can be applied to intestinal microbial ecology analysis.The...This study established a rapid extraction method for the 16S rRNA gene of intestinal flora.Combined with nextgeneration sequencing(NGS)technology,this method can be applied to intestinal microbial ecology analysis.The fecal sample was mixed with lysis buffer,incubated at 90°C for 15 minutes,vortexed,and then centrifuged.The supernatant was collected,and specific primers were added for PCR amplification.The PCR products were purified,and index tags were established for the targets to obtain libraries.After library purification and quality inspection,the libraries could be loaded for sequencing.Under optimized conditions:when the number of PCR cycles was 25 and the initial amount of DNA for library construction was 12.5 ng,fewer chimeras were generated.The library size was 500-700 bp,and there were no primer dimers of approximately 120 bp.This method is rapid,accurate,and sensitive,and can be used for the analysis and detection of the 16S rRNA gene of intestinal flora.展开更多
Salmonella grows better under aerobic conditions as a facultative anaerobic foodborne pathogenic bacteria.The oxygen-scavenging activity of Lactococcus lactis in the intestinal tract is a promising strategy for preven...Salmonella grows better under aerobic conditions as a facultative anaerobic foodborne pathogenic bacteria.The oxygen-scavenging activity of Lactococcus lactis in the intestinal tract is a promising strategy for preventing Salmonella infection.In this study,the aerobic respiration requirement and preventive mechanism of L.lactis subsp.lactis KLDS 4.0325 in murine models infected by Salmonella enterica subsp.enterica serovar Typhimurium(S.Typhimurium)SL1344 were investigated.Results indicate that L.lactis KLDS 4.0325 is capable of aerobic respiratory metabolism in the host intestine when exogenous heme exists,and decrease intestinal oxygen concentration,which in turn trigger autophagy of intestinal cells to reduce S.Typhimurium load,improve gut microbiota composition,alleviate intestinal barrier injury and inflammation response.These results suggest that aerobic respiration L.lactis KLDS 4.0325 can prevent S.Typhimurium infection in a new way in which by restoring intestinal cell hypoxia,maintaining immune balance and regulating intestinal flora.展开更多
Objective:To investigate the clinical efficacy of Modified Gegen Qinlian Decoction combined with probiotics(Clostridium butyricum live capsules)in treating radiation enteritis(RE)in tumor patients,as well as its regul...Objective:To investigate the clinical efficacy of Modified Gegen Qinlian Decoction combined with probiotics(Clostridium butyricum live capsules)in treating radiation enteritis(RE)in tumor patients,as well as its regulatory effect on the structure of intestinal flora,providing clinical evidence for the integrated traditional Chinese and Western medicine treatment of radiation enteritis.Methods:A total of 40 patients with radiation enteritis admitted to the Oncology Department of Linfen Central Hospital from September 2023 to December 2024 were selected and divided into an observation group and a control group according to the random number table method,with 20 cases in each group.The control group was treated with Clostridium butyricum live capsules,while the observation group was treated with Modified Gegen Qinlian Decoction in addition to the treatment given to the control group.Both groups received a 4-week treatment course.Intestinal function indicators and changes in intestinal flora structure were compared between the two groups before and after treatment,and clinical efficacy was evaluated.Results:After 4 weeks of treatment,the total effective rate in the observation group versus the control group was(95.00%vs 65.00%),with a statistically significant difference(P<0.05).The fecal formation rate in the observation group(85.00%vs 60.00%)was significantly higher than that in the control group,and the defecation frequency(2.15±0.42 vs 3.85±0.65)times/day was significantly lower than that in the control group,with statistically significant differences(P<0.05).After treatment,the quantities of Bifidobacterium(6.85±0.72 L vs 5.23±0.61 L)gCFU/g and Lactobacillus(6.52±0.68 L vs 4.98±0.57 L)gCFU/g in the observation group were significantly higher than those in the control group,while the quantities of Escherichia coli(4.12±0.53 L vs 5.67±0.65 L)gCFU/g and Staphylococcus(3.85±0.48 L vs 5.23±0.59 L)gCFU/g were significantly lower than those in the control group,with statistically significant differences(P<0.05).Conclusion:Clinical studies have confirmed that the synergistic treatment of radiation enteritis with Modified Gegen Qinlian Decoction and probiotics can significantly improve patients’clinical symptoms and restore the balance of intestinal flora,providing an effective regimen for clinical treatment.展开更多
Intestinal transplantation(ITx)has emerged as a pivotal life-saving intervention for patients with irreversible intestinal failure unresponsive to conventional medical and nutritional therapies.Despite its growing cli...Intestinal transplantation(ITx)has emerged as a pivotal life-saving intervention for patients with irreversible intestinal failure unresponsive to conventional medical and nutritional therapies.Despite its growing clinical acceptance,ITx remains among the most immunologically complex and technically demanding procedures in the field of solid organ transplantation.This review comprehensively summarizes the historical evolution,clinical indications,and advancements in surgical techniques,with emphasis on innovations in vascular anastomosis,multivisceral transplantation,and ex vivo preservation.Special attention is given to the unique immunological challenges of ITx,including bidirectional immune responses-host-vs-graft and graft-vs-host disease-immune-microbiota interactions,and the distinct roles of key immune cells.Pediatric and adult recipients exhibit divergent etiologies,immune responses,and complication profiles,necessitating individualized approaches.Although novel immunotherapeutic strategies and bioengineering innovations have improved short-term outcomes,chronic rejection,graft dysfunction,and immunosuppressive toxicity remain significant barriers.Looking ahead,future directions should prioritize precision immunomodulation,microbiome-targeted therapies,and integrated platforms for gene editing,3D bioprinting,and immune monitoring.Through multidisciplinary collaboration and translational research,ITx is poised to evolve from a high-risk salvage therapy into a personalized,sustainable solution that enhances long-term survival and patient quality of life.展开更多
Background Piglets are highly susceptible to oxidative stress,which can reduce growth performance and cause intestinal damage.Piceatannol(PIC),a natural bioactive substance enriched in Chinese rhubarb(Rheum officinale...Background Piglets are highly susceptible to oxidative stress,which can reduce growth performance and cause intestinal damage.Piceatannol(PIC),a natural bioactive substance enriched in Chinese rhubarb(Rheum officinale)and certain dark purple fruits,shows excellent antioxidant properties in our previous cell-based high-throughput screening.However,its effect on piglet growth performance and antioxidant capacity as well as underling mechanism has not been thoroughly investigated.Methods One hundred weaned pigs(28 days of age,8.71±0.20 kg)were randomly assigned to 4 treatments with 5 replicates of 5 pigs per replicate.The experimental diets consisted of:1)basal diet,2)basal diet+100 mg/kg PIC,3)basal diet+200 mg/kg PIC,and 4)basal diet+300 mg/kg PIC.On d 15 and 35,one pig from each replicate was selected for sampling.The growth performance was monitored during a 35-day trial.In addition,H_(2)O_(2)-challenged IPEC-J2 cells served as an in vitro model to investigate the antioxidant mechanisms of PIC.IPEC-J2 cells were treated with 1,000μmol/L H_(2)O_(2)in the presence or absence of 10μmol/L PIC.Results Dietary PIC at 200 mg/kg significantly enhanced growth performance,as evidenced by increased average daily gain and feed conversion rate(P<0.05).PIC supplementation markedly improved systemic antioxidant capacity,with elevated serum total antioxidant capacity,catalase activity,and glutathione levels,along with reduced malondialdehyde content(P<0.05).Notably,PIC modulated the gut microbiota composition,increasing the amounts of beneficial genera(e.g.,Blautia and Faecalibacterium),and these microbial shifts significantly correlated with improved antioxidant indices.In vitro,PIC pretreatment effectively protected IPEC-J2 cells against H_(2)O_(2)-induced oxidative damage by reducing reactive oxygen species generation and lipid peroxidation(P<0.01).Mechanistically,PIC exerts its antioxidant effects through Nrf2 pathway activation,upregulating endogenous antioxidant enzymes(P<0.05)while simultaneously inhibiting apoptosis via the regulation of the Bcl-2/Bax ratio and caspase-3 cleavage(P<0.01).Conclusions PIC improved the growth performance and health status of weaned piglets through the regulation of Nrf2-mediated redox homeostasis and modulation of the related gut microbiota,offering a potential new natural antioxidants for mitigating weaning stress in piglets.展开更多
Melanoidins(MLDs),the final products of the Maillard reaction,are high molecular-weight polymers formed during the processing of black garlic.These compounds contribute to the distinctive color,flavor,and bioactive pr...Melanoidins(MLDs),the final products of the Maillard reaction,are high molecular-weight polymers formed during the processing of black garlic.These compounds contribute to the distinctive color,flavor,and bioactive properties of black garlic.However,the impact of storage conditions on the structural integrity and bioactivities of black garlic melanoidins(BG-MLDs)remains largely unexplored.By using various in vitro simulations,this study investigated the effects of different storage conditions(at 4 and 35℃for 0,3,and 6 months)on the digestion,absorption,metabolism,and intestinal microbial profile of BG-MLDs during in vitro gastrointestinal digestion.Our results demonstrated that BG-MLDs resisted digestion regardless of storage conditions.BG-MLDs stored at 4℃for 3 months significantly enriched the abundance of beneficial bacteria like Bifidobacterium longum and decreased harmful bacteria like Escherichia.Additionally,MLD treatment significantly increased the production of short-chain fatty acids(SCFAs),particularly propionate,butyrate,and isovalerate,with the 35℃for 3 months of storage showing the most significant effect(increased by 3.74-fold).However,a longer storage at 35℃(6 months)showed a decline in SCFA production.These findings highlight the critical role of a certain storage time(3 months)in preserving and potentially enhancing the prebiotic activity of BG-MLDs.By optimizing storage parameters,the bioactive potential of BG-MLDs can be used for their potential application as functional food ingredients or nutraceuticals,contributing to the prevention and management of chronic diseases associated with gut dysbiosis.展开更多
The diseases caused by disorders in glucose and lipid metabolism have become one of the prevalent health issues,posing a serious threat to human health.Previous studies have shown that food-derived polysaccharides hav...The diseases caused by disorders in glucose and lipid metabolism have become one of the prevalent health issues,posing a serious threat to human health.Previous studies have shown that food-derived polysaccharides have a certain intervention effect on disorders in glucose and lipid metabolism.This article reviewed the structure-function relationship of food-derived polysaccharides and elucidated their role in regulating glucose and lipid metabolism.Some new evidence suggests that secondary metabolites such as short-chain fatty acids,secondary bile acids,and lipopolysaccharide act as signaling molecules,activating pathways related to glucose and lipid metabolism,alleviating oxidative stress,inhibiting inflammation in the body,and regulating the homeostasis of glucose and lipid metabolism.These results indicated that food-derived polysaccharides have a positive impact on the regulation of glucose and lipid metabolism by improving the gut microbiota environment.On the other hand,gut microbiota disturbance can affect the host’s health through the gut-liver,gut-brain and gut-adipose tissue axes.Therefore,it is speculated that food-derived polysaccharides may intervene in glucose and lipid metabolism through the inter-organ crosstalk between gut,liver,adipose tissue,and nervous system.This essay provides a theoretical basis for the development and utilization of food-derived polysaccharides as prebiotics in intervening disorders in glucose and lipid metabolism.展开更多
Naringin (1), the highest-content flavanone glycoside in sour oranges, was incubated with human intestinal flora, and four biotransforrnation products (2-5) were obtained from the incubated mixture by chromatograp...Naringin (1), the highest-content flavanone glycoside in sour oranges, was incubated with human intestinal flora, and four biotransforrnation products (2-5) were obtained from the incubated mixture by chromatographic methods. The chemical structures of the four products were elucidated as naringin-6"acetate (2), naringenin (3), phloretic acid (4), and phloroglucinol (5) on the basis of their spectroscopic data. Naringin-6"-acetate was specifically formed by acetylation at C6-OH of glucosyl group of 1. The result obtained in the present research could account for the lower bioavailability of 1 after oral administration, suggesting that some biological properties of 1 in vivo may be mediated by its intestinal flora converted product 3. The biotransforrnation of 1 by intestinal flora leading to their systemic absorption deserves further attention and may provide valuable insights into pre-systemic drug metabolism, delivery or toxicity.展开更多
Objective:This study was done to determine the effects of different courses of moxibustion on a rat knee osteoarthritis(KOA)model,and explore the dose–effect relationship of moxibustion on KOA from the perspectives o...Objective:This study was done to determine the effects of different courses of moxibustion on a rat knee osteoarthritis(KOA)model,and explore the dose–effect relationship of moxibustion on KOA from the perspectives of intestinal flora and inflammatory factors.Methods:Wistar rats were randomly divided into five groups:normal,model,moxibustion for 2 weeks,moxibustion for 4 weeks and moxibustion for 6 weeks groups(n=5 each group).A KOA rat model was induced by monosodium iodoacetate,and moxibustion intervention was performed at the acupoints“Dubi”(ST35)and“Zusanli”(ST36),once every other day.Pathologic changes in the cartilage of rat knee joints were assessed after intervention,and fecal samples were subjected to 16 S r RNA high-throughput sequencing for microbial diversity analysis.Results:Damage to the knee articular cartilage was obvious in the model group,which also had increased levels of pro-inflammatory factors,decreased levels of anti-inflammatory factors,and intestinal flora disorders with decreased diversity.The degree of cartilage damage in the 4 and 6 weeks of moxibustion groups was significantly improved compared with the model group.The 4 and 6 weeks of moxibustion groups also demonstrated reduced levels of interleukin-1βand tumor necrosis factor-a and increased levels of interleukin-10(P<0.05).Both the abundance and diversity of the intestinal flora were increased,approaching those of the normal group.Abundances of probiotics Eubacterium coprostanoligenes group and Ruminococcaceae UCG-014 increased,while that of the pathogenic bacteria Lachnospiraceae NK4 A136 group decreased(P<0.05).Although the abundance of Lachnospiraceae NK4 A136 group decreased in the 2 weeks of moxibustion group compared with the model group(P<0.05),there was no statistically significant difference in serum inflammatory factors,flora species diversity or degree of pathological damage compared with the model group.Conclusion:Moxibustion treatment led to significant improvements in the intestinal flora and inflammatory factors of rats with KOA.Moxibustion treatment of 4 and 6 weeks led to better outcomes than the 2-week course.Moxibustion for 4 and 6 weeks can regulate intestinal flora dysfunction with increased probiotics and reduced pathogenic bacteria,reduce pro-inflammatory factors and increase antiinflammatory factors.No significant differences were seen between the effects of moxibustion for 4 weeks and 6 weeks.展开更多
BACKGROUND Sepsis is a common disease in intensive care units,with high morbidity and mortality.Intestinal microecology plays a vital part in the development and progression of this disease,possibly because sepsis and...BACKGROUND Sepsis is a common disease in intensive care units,with high morbidity and mortality.Intestinal microecology plays a vital part in the development and progression of this disease,possibly because sepsis and its treatment cause specific changes in the composition of the intestinal flora.AIM To investigate the characteristics of intestinal flora disturbance in sepsis patients treated with antibiotics.METHODS In this prospective comparative study,we enrolled ten patients with sepsis(sepsis group),hospitalized in the Department of Critical Care Medicine of the General Hospital,Ningxia Medical University,China(a class IIIa general hospital)from February 2017 to June 2017;ten patients without sepsis hospitalized in the same period(non-sepsis group)and ten healthy individuals(control group)were also enrolled.Fecal samples collected from the three groups were subjected to 16S rRNA gene sequencing and the intestinal flora diversity,structure,and composition were determined.Additionally,the dynamics of the intestinal flora diversity,structure,and composition in sepsis patients were investigated via 16S rRNA gene sequencing of samples collected 0 d,3 d,and 7 d after admittance to the intensive care unit.Correlations between the serum levels of procalcitonin,endotoxin,diamine oxidase,and D-lactic acid and the intestinal flora composition of sepsis patients were also investigated.RESULTS Compared with the healthy control group,sepsis and non-sepsis patients showed reduced intestinal floraα-diversity and a distinct flora structure,with Firmicutes as the dominant phylum,and significantly decreased proportions of Bacteroidetes,as well as Prevotella and Lachnospira,among other genera.Of note,the proportion of Enterococcus was significantly increased in the intestinal tract of sepsis patients.Interestingly,theα-diversity in the sepsis group decreased gradually,from days 1 to 7 of treatment.However,pairwise comparisons showed that both the diversity and structure of the intestinal flora were not significantly different considering the three different time points studied.Curiously,the serum levels of procalcitonin,endotoxin,diamine oxidase,and D-lactic acid in sepsis patients correlated with the prevalence of various bacterial genera.For example,the prevalence of Ruminococcus was positively correlated with serum procalcitonin,endotoxins,and diamine oxidase;similarly,the prevalence of Roseburia was positively correlated with serum procalcitonin,endotoxins,and D-lactic acid.CONCLUSION Sepsis patients in intensive care units show dysbiosis,lasting for at least 1 wk.展开更多
Objective:In this study,we investigated the changes in peripheral blood inflammatory factors and intestinal flora in acquired immune deficiency syndrome(AIDS)and human immunodeficiency virus(HIV)-positive individuals(...Objective:In this study,we investigated the changes in peripheral blood inflammatory factors and intestinal flora in acquired immune deficiency syndrome(AIDS)and human immunodeficiency virus(HIV)-positive individuals(AIDS/HIV patients),and explored the relationships among intestinal flora,peripheral blood inflammatory factors,and CD4^+T lymphocytes.Methods:Thirty blood and stool samples from an AIDS group and a control group were collected.The levels of tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6)were determined by enzyme-linked immunosorbent assay(ELISA),and the number of CD4^+T lymphocytes by a FACSCount automated instrument.Quantitative real-time polymerase chain reaction(qRT-PCR)was used to determine the messenger RNA(mRNA)levels of Bifidobacterium,Lactobacillus,Escherichia coli,Enterococcus faecalis,and Enterococcus faecium.Correlations among intestinal flora,inflammatory factor levels,and CD4^+T lymphocyte values were evaluated using the Spearman correlation coefficient.Results:The levels of TNF-αand IL-6 in the AIDS group were higher than those in the control group,while the number of CD4^+T lymphocytes was lower.The amounts of Bifidobacterium and Lactobacillus in the AIDS group were significantly lower than those in control group,while the amounts of E.coli,E.faecalis,and E.faecium were much higher.The amounts of Bifidobacterium and Lactobacillus were negatively correlated with the content of TNF-αand IL-6 and the CD4^+T lymphocyte count,while those correlations were reversed for E.coli,E.faecalis,and E.faecium.Conclusions:The intestinal microbiota of AIDS/HIV patients were disordered,and there was a correlation between the amount of intestinal flora and the number of CD4^+T lymphocytes and the levels of TNF-αand IL-6.展开更多
Antibiotic exposure-induced dysbiosis of the intestinal flora increases the risk of developing allergic rhinitis.Hence,regulating the balance of intestinal flora may be useful for preventing and treating allergic rhin...Antibiotic exposure-induced dysbiosis of the intestinal flora increases the risk of developing allergic rhinitis.Hence,regulating the balance of intestinal flora may be useful for preventing and treating allergic rhinitis.However,the underlying mechanism is unclear.Dendrobium nobile(Shihu)exhibits anti-inflammatory and immune activities.Hence,in this study,we investigated the mechanism via which Shihu may improve allergic rhinitis.Mouse models of allergic rhinitis with intestinal flora dysbiosis(Model-D,antibiotics induce intestinal flora dysbiosis with ovalbumin-induced allergy)and normal intestinal flora with allergic rhinitis(Model-N,ovalbumin-induced allergy)were established.The effect of Shihu on intestinal flora and inflammation caused during allergic rhinitis were analyzed.Allergic symptoms,infiltration of hematoxylin and eosin in the lungs and nose,and the release of various factors[interleukin(IL)-2,IL-4,IFN-y,IL-6,IL-10,and IL-17]in the lungs were evaluated.The results indicate that intestinal flora dysbiosis exacerbated lung and nose inflammation in allergic rhinitis.However,treatment with the Shihu extract effectively reversed these symp-toms.Besides,the Shihu extract inhibited the PI3K/AXT/mTOR pathway and increased the level of Forkhead box protein in the lungs.Additionally,the Shihu extract reversed intestinal flora dysbiosis at the phylum and genus levels and improved regulator T cell differentiation.Furthermore,in the Model-D group,the Shihu extract inhibited the decrease in the diversity and abundance of the intestinal flora.Screening was performed to determine which intestinal flora was positively correlated with Treg differentiation using Spearman5 s correlation analysis.In conclusion,we showed that Shihu extract restored the balance in intestinal flora and ameliorated inflammation in the lungs of allergic rhinitis mice and predicted a therapeutic new approach using Traditional Chinese Medicine to improve allergic rhinitis.展开更多
Objective We investigated changes in the intestinal flora of children with Mycoplasma pneumoniae pneumonia(MPP).Methods Between September 2019 and November 2019,stool samples from 14 children with MPP from The Fourth ...Objective We investigated changes in the intestinal flora of children with Mycoplasma pneumoniae pneumonia(MPP).Methods Between September 2019 and November 2019,stool samples from 14 children with MPP from The Fourth Hospital of Baotou city,Inner Mongolia Autonomous Region,were collected and divided into general treatment(AF)and probiotic(AFY)groups,according to the treatment of“combined Bifidobacterium,Lactobacillus,Enterococcus,and Bacillus cereus tablets live”.Highthroughput 16S rDNA sequencing was used to identify intestinal flora.Results Intestinal flora abundance and diversity in children with MPP were decreased.Both Shannon and Simpson indices were lower in the AF group when compared with healthy controls(P<.05).When compared with healthy controls,the proportion of Enterorhabdus was lower in the AF group,while the proportion of Lachnoclostridium was higher(P<0.05).The proportion of Bifidobacteria and Akkermansia was lower in the AFY group but Enterococcus,Lachnoclostridium,Roseburia,and Erysipelatoclostridium proportions were higher.The proportion of Escherichia coli-Shigella in the AFY group after treatment was decreased(P<0.05).Conclusions The intestinal flora of children with MPP is disturbed,manifested as decreased abundance and diversity,and decreased Bifidobacteria.Our probiotic mixture partly improved intestinal flora disorders.展开更多
The present study was designed to determine the intestinal bacterial metabolites of trollioside and isoquercetin and their antibacterial activities. A systematic in vitro biotransformation investigation on trollioside...The present study was designed to determine the intestinal bacterial metabolites of trollioside and isoquercetin and their antibacterial activities. A systematic in vitro biotransformation investigation on trollioside and isoquercetin, including metabolite identification, metabolic pathway deduction, and time course, was accomplished using a human intestinal bacterial model. The metabolites were analyzed and identified by HPLC and HPLC-MS. The antibacterial activities of trollioside, isoquercetin, and their metabolites were evaluated using the broth microdilution method with berberine as a positive control, and their potency was measured as minimal inhibitory concentration(MIC). Our results indicated that trollioside and isoquercetin were metabolized by human intestinal flora through O-deglycosylation, yielding aglycones proglobeflowery acid and quercetin, respectively The antibacterial activities of both metabolites were more potent than that of their parent compounds. In conclusion, trollioside and isoquercetin are totally and rapidly transformed by human intestinal bacteria in vitro and the transformation favors the improvement of the antibacterial activities of the parent compounds.展开更多
Background:Protein releases amino acids faster than starch releases glucose in digestive tract of pigs fed lowprotein(LP)diets.Poor synchronization of dietary glucose and amino acids supply leads to compromised nitrog...Background:Protein releases amino acids faster than starch releases glucose in digestive tract of pigs fed lowprotein(LP)diets.Poor synchronization of dietary glucose and amino acids supply leads to compromised nitrogen efficiency.Dietary starch patterns modulation may improve this situation.Methods:Growing barrows(29.7±2.0 kg)were randomly allotted into 5 dietary treatments with LP diets consisting of different purified starches.Treatments included:waxy corn starch(W LP),corn starch+waxy corn starch(C+W LP),corn starch(C LP),pea starch+waxy corn starch(P+W LP)and pea starch(P LP).In the experiment,growth performance,protein deposition,nutrient metabolism,and fecal microbial community of pigs were investigated.In vitro starch digestion was used for predicting the in vivo glucose response.Results:Dietary starch in vitro glucose release profile was determined by starch source and the ratio of amylopectin and amylose.C+W LP treatment showed decreased total nitrogen excretion and plasma citrulline concentration and improved plasma leptin concentration among treatments(P<0.05).Besides,the highest nitrogen apparent biological value,whole-body protein deposition and growth performance and lowest urinary nitrogen excretion were also observed in C+W LP treatment.Compared with the other groups,C+W LP and C LP showed increased plasma pyruvate,IGF-1,and lipase concentrations(P<0.05).The W LP group presented dramatically increased plasma alanine and urea nitrogen concentration and decreased aldolase and leptin concentrations(P<0.05).Dietary starch patterns did not make an impact on bacterial richness and diversity,but changed the taxonomic and functional structures of the microbial communities.Microbial protein fermentation product(isobutyrate and isovalerate)presented increased in P LP treatments compared with the other treatments(P<0.05).Conclusions:Dietary starch patterns modulation can regulate dietary glucose release profile,nutrient metabolism,protein turnover,and fecal microbial fermentation in pigs.The optimal dietary glucose release profile effectively strengthened whole-body protein deposition and improve nitrogen efficiency and growth performance in growing pigs fed LP diets.展开更多
基金supported by the Scientific Research Fund Project of Education Department of Yunnan Province,China(No.2024Y386).
文摘Numerous research conducted in recent years has revealed that gut microbial dysbiosis,such as modifications in composition and activity,might influence lung tissue homeostasis through specific pathways,thereby promoting susceptibility to lung diseases.The development and progression of lung cancer,as well as the effectiveness of immunotherapy are closely associated with gut flora and metabolites,which influence immunological and inflammatory responses.During abnormal proliferation,non-small cell lung cancer cells acquire more substances and energy by altering their own metabolic pathways.Glucose and amino acid metabolism reprogramming provide tumor cells with abundant ATP,carbon,and nitrogen sources,respectively,providing optimal conditions for tumor cell proliferation,invasion,and immune escape.This article reviews the relationship of immune response with gut flora and metabolic reprogramming in non-small cell lung cancer,and discusses the potential mechanisms by which gut flora and metabolic reprogramming affect the occurrence,development,and immunotherapy of non-small cell lung cancer,in order to provide new ideas for precision treatment of lung cancer patients.
基金supported by the Key Project at the Central Government Level(No.2060302),the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(No.ZYYCXTD-D-202005),and the National Natural Science Foundation of China(No.8187295682173929).
文摘Background:Liver injury often occurs but with limited drugs.Chaenomeles has a potent hepatoprotective effect,while the ability of Chaenomeles speciosa and Chaenomeles sinensis to treat liver injury in rats is unexplored.Methods:The study involved 30 rats divided into five groups:negative control(NC),model control(MC),positive control(PC),Chaenomeles speciosa-delivered(ZP),and Chaenomeles sinensis-delivered(GP).Fecal samples from all groups were collected 24 h post-modeling for intestinal flora analysis.All rats were collected serum and liver tissues for biochemical and histopathological examinations,among other experiments.Chaenomeles would be effective in CCl4-induced liver injury in rats by analyzing the efficacy and mechanism and examining the differences between Chaenomeles speciosa and Chaenomeles sinensis through oxidative stress,inflammation,and apoptosis pathways.Then,we resolved the mechanism of action in the context of the intestinal flora.Results:The results showed that Chaenomeles intake improved the degree of CCl4-induced liver injury,decreased aspartate aminotransferase,alanine aminotransferase,and alkaline phosphatase levels,and increased total protein and total bilirubin levels.Noteworthy,the glutathione level in the GP group surpassed that a 1.5-fold increase compared to the PC group.Chaenomeles speciosa could exert its efficacy by regulating inflammatory and apoptotic pathways,while Chaenomeles speciosa did so through the oxidative stress pathway.In addition,Chaenomeles are both able to modulate intestinal flora and change the ratio of flora.Chaenomeles speciosa could regulate probiotics and prevent liver injury by altering the distribution and ratio of intestinal flora.Specifically,Lactobacillaceae in the ZP group exhibited 10-fold higher abundance than the other groups.Chaenomeles speciosa increased the abundance of probiotic Clostridiales butyricum in diseased rats,while Chaenomeles sinensis increased the abundance of pathogenic Escherichia Shigella.Conclusion:This study suggests that Chaenomeles may be hepatoprotective by oxidative stress,inflammation,and apoptosis pathways and modulating the composition and function of the intestinal flora.
基金Supported by National Natural Science Foundation of China,No.81903398the Research Start-Up Fund for the Introduction of Talents of Sichuan University,No.YJ2021112+4 种基金Medical Youth Innovation Research Project of Sichuan Province,No.Q21016Natural Science Foundation of Sichuan,No.2023NSFSC1927“From 0 to 1”Innovation Project,Sichuan University,No.2023SCUH0026Sichuan Provincial Science and Technology Department 2023 Central Guide Local Project,No.2023ZYD0097Cigar Fermentation Technology Key Laboratory of Tobacco Industry,No.20202309BC530.
文摘BACKGROUND The intestinal flora(IF)has been linked to risks of non-communicable diseases,especially various cancers,stroke,and Alzheimer’s disease.However,many uncertainties of these associations during different stages of growth,deve-lopment,and aging still exist.Therefore,further in-depth explorations are warranted.AIM To explore the associations of the human IF with disease risks during different stages of growth,development,and aging to achieve more accurate and con-vincing conclusions.METHODS Cohort,cross-sectional,case-control,and Mendelian randomization studies published in the PubMed and Web of Science databases until December 31,2023 were systematically reviewed to clarify the associations of the IF at the genus level with the risks of various non-communicable diseases,which were grouped in accordance with the 10^(th) revision of the International Classification of Diseases.RESULTS In total,57 studies were included to quantitatively examine the influence of the IF on the risks of 30 non-communicable diseases during different stages of growth,development,and aging.Population studies and Mendelian randomization studies confirmed positive associations of the abundances of Bifidobacterium and Ruminococcus with multiple sclerosis.CONCLUSION These findings contribute to a deeper understanding of the roles of the IF and provide novel evidence for effective strategies for the prevention and treatment of non-communicable diseases.In the future,it will be necessary to explore a greater variety of research techniques to uncover the specific mechanisms by which gut microbiota trigger diseases and conduct in-depth studies on the temporal relationship between microbiota alterations and diseases,so as to clarify the causal relationship more accurately.
基金supported by the Jilin Province Science and Technology Plan Project(20230402032GH)the Jilin Province Science and Technology Development Project(20220508115RC).
文摘The gut microbiota and it’s metabolism are vital targets of probiotics regulating high fat-diet(HFD)induced hyperlipidemia,which can relieve the pressure caused by the striking growth of sub-health people.Pediococcus pentosaceus PP04(PP04)could colonize in intestine to regulate gut microbiota and it’s metabolites directly,the rebalanced intestinal flora mediated by PP04 could facilitate the secretion of short chain fatty acids to control body weight gain,PP04 intervention also changed bile acid(BA)profiles and enhanced the ileal concentrations of antagonists including tauro-α/β-muricholic acid sodium salt and ursodeoxycholic acid to inhibit intestinal farnesoid X receptor/fibroblast growth factor 15(FXR/FGF15)signaling coupled with the activation of hepatic FXR/small heterodimer partners signaling,which accelerated the hepatic BA de novo synthesis and excretion with feces to eliminate HFD caused hyperlipemia effectively.This study provided important evidence regarding PP04 as dietary supplement to relieve hyperlipidemia by influencing BA enterohepatic circulation.
基金Supported by the National Natural Science Foundation of China,No.81971814Pudong New Area Health Talent Training Program,No.2025PDWSYCBJ-04Shanghai’s 2023“Technology Innovation Action Plan”Medical Innovation Research Project,No.23Y11908300。
文摘BACKGROUND Intestinal injury is the most common complication of sepsis,and the mitigation of intestinal damage is crucial for treating sepsis.AIM To examine the use of ozone-rich water and its action in preventing intestinal damage caused by sepsis.METHODS Through histological analysis,immunohistochemistry,immunofluorescence assays,and Western blot detection,we evaluated the therapeutic efficacy of ozone in mitigating intestinal injury during sepsis.Additionally,by conducting 16S rRNA sequencing and untargeted metabolomics analysis on fecal samples,we identified alterations in the gut microbiota and specific metabolites in septic mice following ozone treatment.This comprehensive approach aims to further elucidate the mechanistic underpinnings of ozone therapy in alleviating sepsis-induced intestinal damage.RESULTS Our results demonstrate that ozonated water significantly ameliorates pathological damage in intestinal tissues,enhances the expression of tight junction proteins,and inhibits the polarization of intestinal macrophages,thereby reducing the expression of inflammatory cytokines in intestinal tissues of cecal ligation and puncture-induced septic mice.16S rRNA sequencing analysis revealed that ozonated water increased the abundance of beneficial bacteria and alleviated gut microbiota dysbiosis.Studies using broad-spectrum antibiotic-treated mice indicated that the protective effects of ozonated water on intestinal injury are dependent on the gut microbiota.Furthermore,metabolomic analysis identified an increase in the tryptophan metabolite DL-tryptophan in the ozonated water treatment group.This suggests that ozonated water protects against intestinal injury by activating the aryl hydrocarbon receptor and suppressing necroptosis in intestinal epithelial cells.CONCLUSION Ozone protected against sepsis-induced intestinal injury through regulation of the gut microbiota and tryptophan metabolism,inhibiting necrotic apoptosis of intestinal epithelial cells through activation of the aryl hydrocarbon receptor.
文摘This study established a rapid extraction method for the 16S rRNA gene of intestinal flora.Combined with nextgeneration sequencing(NGS)technology,this method can be applied to intestinal microbial ecology analysis.The fecal sample was mixed with lysis buffer,incubated at 90°C for 15 minutes,vortexed,and then centrifuged.The supernatant was collected,and specific primers were added for PCR amplification.The PCR products were purified,and index tags were established for the targets to obtain libraries.After library purification and quality inspection,the libraries could be loaded for sequencing.Under optimized conditions:when the number of PCR cycles was 25 and the initial amount of DNA for library construction was 12.5 ng,fewer chimeras were generated.The library size was 500-700 bp,and there were no primer dimers of approximately 120 bp.This method is rapid,accurate,and sensitive,and can be used for the analysis and detection of the 16S rRNA gene of intestinal flora.
基金supported by the National Natural Science Foundation of China(32072190 and 32101929)Academic Backbone Plan of Northeast Agricultural University(20XG12)。
文摘Salmonella grows better under aerobic conditions as a facultative anaerobic foodborne pathogenic bacteria.The oxygen-scavenging activity of Lactococcus lactis in the intestinal tract is a promising strategy for preventing Salmonella infection.In this study,the aerobic respiration requirement and preventive mechanism of L.lactis subsp.lactis KLDS 4.0325 in murine models infected by Salmonella enterica subsp.enterica serovar Typhimurium(S.Typhimurium)SL1344 were investigated.Results indicate that L.lactis KLDS 4.0325 is capable of aerobic respiratory metabolism in the host intestine when exogenous heme exists,and decrease intestinal oxygen concentration,which in turn trigger autophagy of intestinal cells to reduce S.Typhimurium load,improve gut microbiota composition,alleviate intestinal barrier injury and inflammation response.These results suggest that aerobic respiration L.lactis KLDS 4.0325 can prevent S.Typhimurium infection in a new way in which by restoring intestinal cell hypoxia,maintaining immune balance and regulating intestinal flora.
基金Four“batches”innovation project of invigorating medicine through science and technology of Shanxi province(Project No.:2023XM059)。
文摘Objective:To investigate the clinical efficacy of Modified Gegen Qinlian Decoction combined with probiotics(Clostridium butyricum live capsules)in treating radiation enteritis(RE)in tumor patients,as well as its regulatory effect on the structure of intestinal flora,providing clinical evidence for the integrated traditional Chinese and Western medicine treatment of radiation enteritis.Methods:A total of 40 patients with radiation enteritis admitted to the Oncology Department of Linfen Central Hospital from September 2023 to December 2024 were selected and divided into an observation group and a control group according to the random number table method,with 20 cases in each group.The control group was treated with Clostridium butyricum live capsules,while the observation group was treated with Modified Gegen Qinlian Decoction in addition to the treatment given to the control group.Both groups received a 4-week treatment course.Intestinal function indicators and changes in intestinal flora structure were compared between the two groups before and after treatment,and clinical efficacy was evaluated.Results:After 4 weeks of treatment,the total effective rate in the observation group versus the control group was(95.00%vs 65.00%),with a statistically significant difference(P<0.05).The fecal formation rate in the observation group(85.00%vs 60.00%)was significantly higher than that in the control group,and the defecation frequency(2.15±0.42 vs 3.85±0.65)times/day was significantly lower than that in the control group,with statistically significant differences(P<0.05).After treatment,the quantities of Bifidobacterium(6.85±0.72 L vs 5.23±0.61 L)gCFU/g and Lactobacillus(6.52±0.68 L vs 4.98±0.57 L)gCFU/g in the observation group were significantly higher than those in the control group,while the quantities of Escherichia coli(4.12±0.53 L vs 5.67±0.65 L)gCFU/g and Staphylococcus(3.85±0.48 L vs 5.23±0.59 L)gCFU/g were significantly lower than those in the control group,with statistically significant differences(P<0.05).Conclusion:Clinical studies have confirmed that the synergistic treatment of radiation enteritis with Modified Gegen Qinlian Decoction and probiotics can significantly improve patients’clinical symptoms and restore the balance of intestinal flora,providing an effective regimen for clinical treatment.
基金Supported by Guangdong Provincial Medical Research Fund General Program,No.B2025209Guangzhou Science and Technology Program Project,No.2025A03J3269.
文摘Intestinal transplantation(ITx)has emerged as a pivotal life-saving intervention for patients with irreversible intestinal failure unresponsive to conventional medical and nutritional therapies.Despite its growing clinical acceptance,ITx remains among the most immunologically complex and technically demanding procedures in the field of solid organ transplantation.This review comprehensively summarizes the historical evolution,clinical indications,and advancements in surgical techniques,with emphasis on innovations in vascular anastomosis,multivisceral transplantation,and ex vivo preservation.Special attention is given to the unique immunological challenges of ITx,including bidirectional immune responses-host-vs-graft and graft-vs-host disease-immune-microbiota interactions,and the distinct roles of key immune cells.Pediatric and adult recipients exhibit divergent etiologies,immune responses,and complication profiles,necessitating individualized approaches.Although novel immunotherapeutic strategies and bioengineering innovations have improved short-term outcomes,chronic rejection,graft dysfunction,and immunosuppressive toxicity remain significant barriers.Looking ahead,future directions should prioritize precision immunomodulation,microbiome-targeted therapies,and integrated platforms for gene editing,3D bioprinting,and immune monitoring.Through multidisciplinary collaboration and translational research,ITx is poised to evolve from a high-risk salvage therapy into a personalized,sustainable solution that enhances long-term survival and patient quality of life.
基金financially supported by the Innovation Capacity Building—Science and Technology Research Project of BAAFS(grant No.KJCX20251005)the Special Program on Science and Technology Innovation Capacity Building of BAAFS(grant No.KJCX 20240339)the National Key R&D Program of China(grant No.2022YFD130040311)。
文摘Background Piglets are highly susceptible to oxidative stress,which can reduce growth performance and cause intestinal damage.Piceatannol(PIC),a natural bioactive substance enriched in Chinese rhubarb(Rheum officinale)and certain dark purple fruits,shows excellent antioxidant properties in our previous cell-based high-throughput screening.However,its effect on piglet growth performance and antioxidant capacity as well as underling mechanism has not been thoroughly investigated.Methods One hundred weaned pigs(28 days of age,8.71±0.20 kg)were randomly assigned to 4 treatments with 5 replicates of 5 pigs per replicate.The experimental diets consisted of:1)basal diet,2)basal diet+100 mg/kg PIC,3)basal diet+200 mg/kg PIC,and 4)basal diet+300 mg/kg PIC.On d 15 and 35,one pig from each replicate was selected for sampling.The growth performance was monitored during a 35-day trial.In addition,H_(2)O_(2)-challenged IPEC-J2 cells served as an in vitro model to investigate the antioxidant mechanisms of PIC.IPEC-J2 cells were treated with 1,000μmol/L H_(2)O_(2)in the presence or absence of 10μmol/L PIC.Results Dietary PIC at 200 mg/kg significantly enhanced growth performance,as evidenced by increased average daily gain and feed conversion rate(P<0.05).PIC supplementation markedly improved systemic antioxidant capacity,with elevated serum total antioxidant capacity,catalase activity,and glutathione levels,along with reduced malondialdehyde content(P<0.05).Notably,PIC modulated the gut microbiota composition,increasing the amounts of beneficial genera(e.g.,Blautia and Faecalibacterium),and these microbial shifts significantly correlated with improved antioxidant indices.In vitro,PIC pretreatment effectively protected IPEC-J2 cells against H_(2)O_(2)-induced oxidative damage by reducing reactive oxygen species generation and lipid peroxidation(P<0.01).Mechanistically,PIC exerts its antioxidant effects through Nrf2 pathway activation,upregulating endogenous antioxidant enzymes(P<0.05)while simultaneously inhibiting apoptosis via the regulation of the Bcl-2/Bax ratio and caspase-3 cleavage(P<0.01).Conclusions PIC improved the growth performance and health status of weaned piglets through the regulation of Nrf2-mediated redox homeostasis and modulation of the related gut microbiota,offering a potential new natural antioxidants for mitigating weaning stress in piglets.
基金funded by the National Key R&D Program of China(2023YFF1104302)the Sichuan Science and Technology Program(2022YFSY0030).
文摘Melanoidins(MLDs),the final products of the Maillard reaction,are high molecular-weight polymers formed during the processing of black garlic.These compounds contribute to the distinctive color,flavor,and bioactive properties of black garlic.However,the impact of storage conditions on the structural integrity and bioactivities of black garlic melanoidins(BG-MLDs)remains largely unexplored.By using various in vitro simulations,this study investigated the effects of different storage conditions(at 4 and 35℃for 0,3,and 6 months)on the digestion,absorption,metabolism,and intestinal microbial profile of BG-MLDs during in vitro gastrointestinal digestion.Our results demonstrated that BG-MLDs resisted digestion regardless of storage conditions.BG-MLDs stored at 4℃for 3 months significantly enriched the abundance of beneficial bacteria like Bifidobacterium longum and decreased harmful bacteria like Escherichia.Additionally,MLD treatment significantly increased the production of short-chain fatty acids(SCFAs),particularly propionate,butyrate,and isovalerate,with the 35℃for 3 months of storage showing the most significant effect(increased by 3.74-fold).However,a longer storage at 35℃(6 months)showed a decline in SCFA production.These findings highlight the critical role of a certain storage time(3 months)in preserving and potentially enhancing the prebiotic activity of BG-MLDs.By optimizing storage parameters,the bioactive potential of BG-MLDs can be used for their potential application as functional food ingredients or nutraceuticals,contributing to the prevention and management of chronic diseases associated with gut dysbiosis.
基金supported by the University Innovation Team of Shandong Province(2022KJ243)the National Natural Science Foundation of China(31901644)Natural Science Foundation of Shandong Province(ZR2025MS284).
文摘The diseases caused by disorders in glucose and lipid metabolism have become one of the prevalent health issues,posing a serious threat to human health.Previous studies have shown that food-derived polysaccharides have a certain intervention effect on disorders in glucose and lipid metabolism.This article reviewed the structure-function relationship of food-derived polysaccharides and elucidated their role in regulating glucose and lipid metabolism.Some new evidence suggests that secondary metabolites such as short-chain fatty acids,secondary bile acids,and lipopolysaccharide act as signaling molecules,activating pathways related to glucose and lipid metabolism,alleviating oxidative stress,inhibiting inflammation in the body,and regulating the homeostasis of glucose and lipid metabolism.These results indicated that food-derived polysaccharides have a positive impact on the regulation of glucose and lipid metabolism by improving the gut microbiota environment.On the other hand,gut microbiota disturbance can affect the host’s health through the gut-liver,gut-brain and gut-adipose tissue axes.Therefore,it is speculated that food-derived polysaccharides may intervene in glucose and lipid metabolism through the inter-organ crosstalk between gut,liver,adipose tissue,and nervous system.This essay provides a theoretical basis for the development and utilization of food-derived polysaccharides as prebiotics in intervening disorders in glucose and lipid metabolism.
基金National Sciences and Technology Program of China (Grant No. 2011BAI07B08)"Major New Medicine Project" in Mega-projects of Science Research of China (Grant No. 2009ZX09301-010)
文摘Naringin (1), the highest-content flavanone glycoside in sour oranges, was incubated with human intestinal flora, and four biotransforrnation products (2-5) were obtained from the incubated mixture by chromatographic methods. The chemical structures of the four products were elucidated as naringin-6"acetate (2), naringenin (3), phloretic acid (4), and phloroglucinol (5) on the basis of their spectroscopic data. Naringin-6"-acetate was specifically formed by acetylation at C6-OH of glucosyl group of 1. The result obtained in the present research could account for the lower bioavailability of 1 after oral administration, suggesting that some biological properties of 1 in vivo may be mediated by its intestinal flora converted product 3. The biotransforrnation of 1 by intestinal flora leading to their systemic absorption deserves further attention and may provide valuable insights into pre-systemic drug metabolism, delivery or toxicity.
基金supported by the National Natural Science Foundation of China(No.81173342,81473773)Postgraduate Innovation Funding Project(No.XCXZZBS2021017)。
文摘Objective:This study was done to determine the effects of different courses of moxibustion on a rat knee osteoarthritis(KOA)model,and explore the dose–effect relationship of moxibustion on KOA from the perspectives of intestinal flora and inflammatory factors.Methods:Wistar rats were randomly divided into five groups:normal,model,moxibustion for 2 weeks,moxibustion for 4 weeks and moxibustion for 6 weeks groups(n=5 each group).A KOA rat model was induced by monosodium iodoacetate,and moxibustion intervention was performed at the acupoints“Dubi”(ST35)and“Zusanli”(ST36),once every other day.Pathologic changes in the cartilage of rat knee joints were assessed after intervention,and fecal samples were subjected to 16 S r RNA high-throughput sequencing for microbial diversity analysis.Results:Damage to the knee articular cartilage was obvious in the model group,which also had increased levels of pro-inflammatory factors,decreased levels of anti-inflammatory factors,and intestinal flora disorders with decreased diversity.The degree of cartilage damage in the 4 and 6 weeks of moxibustion groups was significantly improved compared with the model group.The 4 and 6 weeks of moxibustion groups also demonstrated reduced levels of interleukin-1βand tumor necrosis factor-a and increased levels of interleukin-10(P<0.05).Both the abundance and diversity of the intestinal flora were increased,approaching those of the normal group.Abundances of probiotics Eubacterium coprostanoligenes group and Ruminococcaceae UCG-014 increased,while that of the pathogenic bacteria Lachnospiraceae NK4 A136 group decreased(P<0.05).Although the abundance of Lachnospiraceae NK4 A136 group decreased in the 2 weeks of moxibustion group compared with the model group(P<0.05),there was no statistically significant difference in serum inflammatory factors,flora species diversity or degree of pathological damage compared with the model group.Conclusion:Moxibustion treatment led to significant improvements in the intestinal flora and inflammatory factors of rats with KOA.Moxibustion treatment of 4 and 6 weeks led to better outcomes than the 2-week course.Moxibustion for 4 and 6 weeks can regulate intestinal flora dysfunction with increased probiotics and reduced pathogenic bacteria,reduce pro-inflammatory factors and increase antiinflammatory factors.No significant differences were seen between the effects of moxibustion for 4 weeks and 6 weeks.
基金the National Key Research and Development Program of China,No.2016YFD0400605.
文摘BACKGROUND Sepsis is a common disease in intensive care units,with high morbidity and mortality.Intestinal microecology plays a vital part in the development and progression of this disease,possibly because sepsis and its treatment cause specific changes in the composition of the intestinal flora.AIM To investigate the characteristics of intestinal flora disturbance in sepsis patients treated with antibiotics.METHODS In this prospective comparative study,we enrolled ten patients with sepsis(sepsis group),hospitalized in the Department of Critical Care Medicine of the General Hospital,Ningxia Medical University,China(a class IIIa general hospital)from February 2017 to June 2017;ten patients without sepsis hospitalized in the same period(non-sepsis group)and ten healthy individuals(control group)were also enrolled.Fecal samples collected from the three groups were subjected to 16S rRNA gene sequencing and the intestinal flora diversity,structure,and composition were determined.Additionally,the dynamics of the intestinal flora diversity,structure,and composition in sepsis patients were investigated via 16S rRNA gene sequencing of samples collected 0 d,3 d,and 7 d after admittance to the intensive care unit.Correlations between the serum levels of procalcitonin,endotoxin,diamine oxidase,and D-lactic acid and the intestinal flora composition of sepsis patients were also investigated.RESULTS Compared with the healthy control group,sepsis and non-sepsis patients showed reduced intestinal floraα-diversity and a distinct flora structure,with Firmicutes as the dominant phylum,and significantly decreased proportions of Bacteroidetes,as well as Prevotella and Lachnospira,among other genera.Of note,the proportion of Enterococcus was significantly increased in the intestinal tract of sepsis patients.Interestingly,theα-diversity in the sepsis group decreased gradually,from days 1 to 7 of treatment.However,pairwise comparisons showed that both the diversity and structure of the intestinal flora were not significantly different considering the three different time points studied.Curiously,the serum levels of procalcitonin,endotoxin,diamine oxidase,and D-lactic acid in sepsis patients correlated with the prevalence of various bacterial genera.For example,the prevalence of Ruminococcus was positively correlated with serum procalcitonin,endotoxins,and diamine oxidase;similarly,the prevalence of Roseburia was positively correlated with serum procalcitonin,endotoxins,and D-lactic acid.CONCLUSION Sepsis patients in intensive care units show dysbiosis,lasting for at least 1 wk.
文摘Objective:In this study,we investigated the changes in peripheral blood inflammatory factors and intestinal flora in acquired immune deficiency syndrome(AIDS)and human immunodeficiency virus(HIV)-positive individuals(AIDS/HIV patients),and explored the relationships among intestinal flora,peripheral blood inflammatory factors,and CD4^+T lymphocytes.Methods:Thirty blood and stool samples from an AIDS group and a control group were collected.The levels of tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6)were determined by enzyme-linked immunosorbent assay(ELISA),and the number of CD4^+T lymphocytes by a FACSCount automated instrument.Quantitative real-time polymerase chain reaction(qRT-PCR)was used to determine the messenger RNA(mRNA)levels of Bifidobacterium,Lactobacillus,Escherichia coli,Enterococcus faecalis,and Enterococcus faecium.Correlations among intestinal flora,inflammatory factor levels,and CD4^+T lymphocyte values were evaluated using the Spearman correlation coefficient.Results:The levels of TNF-αand IL-6 in the AIDS group were higher than those in the control group,while the number of CD4^+T lymphocytes was lower.The amounts of Bifidobacterium and Lactobacillus in the AIDS group were significantly lower than those in control group,while the amounts of E.coli,E.faecalis,and E.faecium were much higher.The amounts of Bifidobacterium and Lactobacillus were negatively correlated with the content of TNF-αand IL-6 and the CD4^+T lymphocyte count,while those correlations were reversed for E.coli,E.faecalis,and E.faecium.Conclusions:The intestinal microbiota of AIDS/HIV patients were disordered,and there was a correlation between the amount of intestinal flora and the number of CD4^+T lymphocytes and the levels of TNF-αand IL-6.
基金This work was supported by the Shenzhen Key Discipline of Medicine(2020-2024)(SZXK039)Science and Technology Development Special Fund of Shenzhen Longgang District(LGKC YL WS2019000749 and LGKC YLWS2019000846)China Postdoctoral Science Foundation(2020M683137).
文摘Antibiotic exposure-induced dysbiosis of the intestinal flora increases the risk of developing allergic rhinitis.Hence,regulating the balance of intestinal flora may be useful for preventing and treating allergic rhinitis.However,the underlying mechanism is unclear.Dendrobium nobile(Shihu)exhibits anti-inflammatory and immune activities.Hence,in this study,we investigated the mechanism via which Shihu may improve allergic rhinitis.Mouse models of allergic rhinitis with intestinal flora dysbiosis(Model-D,antibiotics induce intestinal flora dysbiosis with ovalbumin-induced allergy)and normal intestinal flora with allergic rhinitis(Model-N,ovalbumin-induced allergy)were established.The effect of Shihu on intestinal flora and inflammation caused during allergic rhinitis were analyzed.Allergic symptoms,infiltration of hematoxylin and eosin in the lungs and nose,and the release of various factors[interleukin(IL)-2,IL-4,IFN-y,IL-6,IL-10,and IL-17]in the lungs were evaluated.The results indicate that intestinal flora dysbiosis exacerbated lung and nose inflammation in allergic rhinitis.However,treatment with the Shihu extract effectively reversed these symp-toms.Besides,the Shihu extract inhibited the PI3K/AXT/mTOR pathway and increased the level of Forkhead box protein in the lungs.Additionally,the Shihu extract reversed intestinal flora dysbiosis at the phylum and genus levels and improved regulator T cell differentiation.Furthermore,in the Model-D group,the Shihu extract inhibited the decrease in the diversity and abundance of the intestinal flora.Screening was performed to determine which intestinal flora was positively correlated with Treg differentiation using Spearman5 s correlation analysis.In conclusion,we showed that Shihu extract restored the balance in intestinal flora and ameliorated inflammation in the lungs of allergic rhinitis mice and predicted a therapeutic new approach using Traditional Chinese Medicine to improve allergic rhinitis.
文摘Objective We investigated changes in the intestinal flora of children with Mycoplasma pneumoniae pneumonia(MPP).Methods Between September 2019 and November 2019,stool samples from 14 children with MPP from The Fourth Hospital of Baotou city,Inner Mongolia Autonomous Region,were collected and divided into general treatment(AF)and probiotic(AFY)groups,according to the treatment of“combined Bifidobacterium,Lactobacillus,Enterococcus,and Bacillus cereus tablets live”.Highthroughput 16S rDNA sequencing was used to identify intestinal flora.Results Intestinal flora abundance and diversity in children with MPP were decreased.Both Shannon and Simpson indices were lower in the AF group when compared with healthy controls(P<.05).When compared with healthy controls,the proportion of Enterorhabdus was lower in the AF group,while the proportion of Lachnoclostridium was higher(P<0.05).The proportion of Bifidobacteria and Akkermansia was lower in the AFY group but Enterococcus,Lachnoclostridium,Roseburia,and Erysipelatoclostridium proportions were higher.The proportion of Escherichia coli-Shigella in the AFY group after treatment was decreased(P<0.05).Conclusions The intestinal flora of children with MPP is disturbed,manifested as decreased abundance and diversity,and decreased Bifidobacteria.Our probiotic mixture partly improved intestinal flora disorders.
基金supported by National Natural Science Foundation of China(NSFC,No.81274044)
文摘The present study was designed to determine the intestinal bacterial metabolites of trollioside and isoquercetin and their antibacterial activities. A systematic in vitro biotransformation investigation on trollioside and isoquercetin, including metabolite identification, metabolic pathway deduction, and time course, was accomplished using a human intestinal bacterial model. The metabolites were analyzed and identified by HPLC and HPLC-MS. The antibacterial activities of trollioside, isoquercetin, and their metabolites were evaluated using the broth microdilution method with berberine as a positive control, and their potency was measured as minimal inhibitory concentration(MIC). Our results indicated that trollioside and isoquercetin were metabolized by human intestinal flora through O-deglycosylation, yielding aglycones proglobeflowery acid and quercetin, respectively The antibacterial activities of both metabolites were more potent than that of their parent compounds. In conclusion, trollioside and isoquercetin are totally and rapidly transformed by human intestinal bacteria in vitro and the transformation favors the improvement of the antibacterial activities of the parent compounds.
基金financially supported by the Beijing Swine Innovation Team of Modern Agriculture Industry Technological System.
文摘Background:Protein releases amino acids faster than starch releases glucose in digestive tract of pigs fed lowprotein(LP)diets.Poor synchronization of dietary glucose and amino acids supply leads to compromised nitrogen efficiency.Dietary starch patterns modulation may improve this situation.Methods:Growing barrows(29.7±2.0 kg)were randomly allotted into 5 dietary treatments with LP diets consisting of different purified starches.Treatments included:waxy corn starch(W LP),corn starch+waxy corn starch(C+W LP),corn starch(C LP),pea starch+waxy corn starch(P+W LP)and pea starch(P LP).In the experiment,growth performance,protein deposition,nutrient metabolism,and fecal microbial community of pigs were investigated.In vitro starch digestion was used for predicting the in vivo glucose response.Results:Dietary starch in vitro glucose release profile was determined by starch source and the ratio of amylopectin and amylose.C+W LP treatment showed decreased total nitrogen excretion and plasma citrulline concentration and improved plasma leptin concentration among treatments(P<0.05).Besides,the highest nitrogen apparent biological value,whole-body protein deposition and growth performance and lowest urinary nitrogen excretion were also observed in C+W LP treatment.Compared with the other groups,C+W LP and C LP showed increased plasma pyruvate,IGF-1,and lipase concentrations(P<0.05).The W LP group presented dramatically increased plasma alanine and urea nitrogen concentration and decreased aldolase and leptin concentrations(P<0.05).Dietary starch patterns did not make an impact on bacterial richness and diversity,but changed the taxonomic and functional structures of the microbial communities.Microbial protein fermentation product(isobutyrate and isovalerate)presented increased in P LP treatments compared with the other treatments(P<0.05).Conclusions:Dietary starch patterns modulation can regulate dietary glucose release profile,nutrient metabolism,protein turnover,and fecal microbial fermentation in pigs.The optimal dietary glucose release profile effectively strengthened whole-body protein deposition and improve nitrogen efficiency and growth performance in growing pigs fed LP diets.
