AIM: To examine the effect of Eubacteriuro Iiroosuro (E.Iiroosuro) on colonic epithelial cell line in vitro, and to evaluate the effect of E.limosum on experimental colitis.METHODS: E.Iimosum was inoculated anaero...AIM: To examine the effect of Eubacteriuro Iiroosuro (E.Iiroosuro) on colonic epithelial cell line in vitro, and to evaluate the effect of E.limosum on experimental colitis.METHODS: E.Iimosum was inoculated anaerobically and its metabolites were obtained. The growth stimulatory effect of the E.limosum metabolites on T84 cells was evaluated by SUDH activity, and the anti-inflammatory effect by IL-6 production. The change in mRNA of toll like receptor 4 (TLR4) was evaluated by real time PCR. Colitis was induced by feeding BALB/C mice with 2.0% dextran sodium sulfate. These mice received either 5% lyophilized E.lirnosum (n=7) or control diet (n=7). Seven days after colitis induction, clinical and histological scores, colon length, and cecal organic acid levels were determined.RESULTS: The E.Iimosum produced butyrate, acetate, propionate, and lactate at 0.25, 1.0, 0.025 and 0.07 retool/L, respectively in medium. At this concentration, each acid had no growth stimulating activity on T84 cells; however, when these acids were mixed together at the above levels, it showed significantly high activity than control. Except for lactate, these acids significantly attenuated IL-6 production at just 0.1 mmol/L. In addition, under TNF-α stimulation, butyrate attenuated the production of TLR4 mRNA. The treatment with E.limosum significantly attenuated clinical and histological scores of colitis with an increase of cecal butyrate levels, compared with the control group.CONCLUSION: E.limosum can ameliorate experimental colonic inflammation. In part, the metabolite of E.lirnosurn, butyrate, increases mucosal integrity and shows anti-inflammatory action modulation of mucosal defense system via TLR4.展开更多
Resistant starch type 3 (RS3) produced from high amylose food sources through retrogradation or enzymatic process is known to have physiological function as dietary fiber. Fermentation of RS3 by colonic microorganisms...Resistant starch type 3 (RS3) produced from high amylose food sources through retrogradation or enzymatic process is known to have physiological function as dietary fiber. Fermentation of RS3 by colonic microorganisms produced SCFA (acetate, propionate, and butyrate), maintained the health of colon, balance of gut microbiota, preventing inflammatory bowel diseases (IBD) and colon cancer. RS3 in this study was produced from IR-42 and Inpari-16 broken rice by enzymatic treatment (combination of amylase-pullulanase). The Resistant Starch was fermented for 12 and 24 h by colonic microbiota (extracted from healthy human subject), Clostiridium butyricum BCC-B2571, or Eubacterium rectale DSM 17629. SCFA produced was analyzed by gas chromatography. Treatment by amylase-pullulanase combination was advantageous to increase their RS3 content. The result showed that after enzymatic process, the RS3 content of IR-42 (41.13%) was not significantly different (p 0.05) from that of Inpari-16 (37.70%). High concentration of acetate (82.5 mM) and propionate (7.5 mM) were produced by colonic microbiota after 12 h fermentation and best concentration of butyrate (6.8 mM) was produced by colonic microbiota after 24 h fermentation. It is clear that utilization of colonic microbiota rather than single strain was better in the production of SCFA.展开更多
Chemotherapy-induced mucositis represents a severe adverse outcome of cancer treatment,significantly curtailing the efficacy of these treatments and,in some cases,resulting in fatal conse-quences.Despite identifying i...Chemotherapy-induced mucositis represents a severe adverse outcome of cancer treatment,significantly curtailing the efficacy of these treatments and,in some cases,resulting in fatal conse-quences.Despite identifying intestinal epithelial cell damage as a key factor in chemotherapy-induced mucositis,the paucity of effective treatments for such damage is evident.In our study,we discovered that Eubacterium coprostanoligenes promotes mucin secretion by goblet cells,thereby fortifying the integrity of the intestinal mucus barrier.This enhanced barrier function serves to resist microbial invasion and sub-sequently reduces the inflammatory response.Importantly,this effect remains unobtrusive to the anti-tumor efficacy of chemotherapy drugs.Mechanistically,E.copr up-regulates the expression of AUF1,leading to the stabilization of Muc2 mRNA and an increase in mucin synthesis in goblet cells.An espe-cially significant finding is that E.copr activates the AhR pathway,thereby promoting the expression of AUF1.In summary,our results strongly indicate that E.copr enhances the intestinal mucus barrier,effec-tively alleviating chemotherapy-induced intestinal mucositis by activating the AhR/AUFl pathway,consequently enhancing Muc2 mRNA stability.展开更多
The human intestinal microbiota that comprise over 1,000 species thrive in dark and anaerobic environments.They are recognized for the production of diverse low-molecular-weight metabolites crucial to human health and...The human intestinal microbiota that comprise over 1,000 species thrive in dark and anaerobic environments.They are recognized for the production of diverse low-molecular-weight metabolites crucial to human health and diseases.Carotenoids,low-molecular-weight pigments known for their antioxidative activity,are delivered to humans through oral intake.However,it remains unclear whether human intestinal bacteria biosynthesize carotenoids as part of the in-situ microbiota.In this study,we investigated carotenoid synthesis genes in vari-ous human gut and probiotic bacteria.As a result,novel candidates,the crtM and crtN genes,were identified in the carbon monoxide-utilizing gut anaerobe Eubacterium limosum and the lactic acid bacterium Leuconostoc mesenteroides subsp.mesenteroides.These gene candidates were isolated,introduced into Escherichia coli,which synthesized a carotenoid substrate,and cultured aerobically.Structural analysis of the resulting carotenoids re-vealed that the crtM and crtN gene candidates of E.limosum and L.mesenteroides mediate the production of 4,4′-diaponeurosporene through 15-cis-4,4′-diapophytoene.Evaluation of the crtE-homologous genes in these bacteria indicated their non-functionality for C40-carotenoid production.E.limosum and L.mesenteroides,along with the known carotenogenic lactic acid bacterium Lactiplantibacillus plantarum,were observed to produce no carotenoids under strictly anaerobic conditions.The two lactic acid bacteria synthesized detectable levels of 4,4′-diaponeurosporene under semi-aerobic conditions.The findings highlight that the obligate anaerobe E.limo-sum retains aerobically functional C30-carotenoid biosynthesis genes,potentially with no immediate self-utility,suggesting an evolutionary direction in carotenoid biosynthesis.(229 words)展开更多
The prevalence of high blood pressure is on the rise among younger individuals,and recent findings have linked exercise to changes in the diversity and configuration of gut microbiota.However,specific modifications to...The prevalence of high blood pressure is on the rise among younger individuals,and recent findings have linked exercise to changes in the diversity and configuration of gut microbiota.However,specific modifications to one's diet,such as incorporating blueberries while engaging in physical activity,can also influence this association.To explore the effects of exercise and blueberry consumption on gut bacteria,we conducted an 8-week study involving healthy and hypertensive college students.Our microbiome analysis revealed slight shifts in gut bacteria composition in response to increased physical activity,with significant changes in the diversity of the g_[Eubacterium]_eligens_group observed in hypertensive college students who regularly consumed blueberries.Although exercise and blueberry supplementation had a negligible impact on the gut microbiota diversity of healthy college students,it significantly boosted the production of butyric acid bacteria in hypertensive young adults.These results suggest that the changes in gut bacteria variety and abundance brought about by blueberries may be tied to alterations in the body composition of patients with hypertension.This study aims to reveal the impact of blueberry on the hypertensive students from a unique perspective,suggesting the impact of taking blueberry while taking exercises.展开更多
The gut microbiome is a complex community of microorganisms that plays a direct role in the health of both the gastrointestinal tract and the entire body.Numerous factors influence the abundance and diversity of gut m...The gut microbiome is a complex community of microorganisms that plays a direct role in the health of both the gastrointestinal tract and the entire body.Numerous factors influence the abundance and diversity of gut microbiota.Microbial imbalance can contribute to disease development.Probiotics are biologically active supplements with promising properties that have high therapeutic potential.Currently,there is a tendency to switch from classic probiotic microorganisms represented by lactic acid bacteria to next-generation probiotics due to their unique ability to influence the human immune system.New-generation probiotics include bacteria such as Akkermansia muciniphila,Faecalibacterium prausnitzii,Bacteroides sp.,Prevotella sp.,Roseburia sp.,and Eubacterium sp.Nextgeneration probiotics can affect host immune cells by secreting various substances,such as butyrate in F.prausnitzii,or through interaction with Toll-like receptors of intestinal epithelial cells,such as A.muciniphila.Studying the role of next-generation probiotics in immune regulation is a promising area of research.This study describes the interactions of next-generation probiotics with the immune system.Understanding the mechanisms of such interactions will improve the treatment of various diseases.展开更多
Cell free supernatant containing short chain fatty acid (SCFA) resulted from fermentation of resistant starch type three (RS3) by Clostridium butyricum BCC B2571 or Eubacterium rectale DSM 17629 were investigated for ...Cell free supernatant containing short chain fatty acid (SCFA) resulted from fermentation of resistant starch type three (RS3) by Clostridium butyricum BCC B2571 or Eubacterium rectale DSM 17629 were investigated for their ability to inhibit proliferation and induce apoptosis of human colon cancer cell line HCT-116. HCT-116 was cultured in complete medium and after 50% confluent, incubation was continued for another 48 hours in the absence or presence cell free supernatant containing SCFA mixture at butyrate levels up to 10 mM. The study revealed that the proliferation inhibition effect was higher (>80%) on HCT-116 treated with supernatant of C. butyricum BCC B2571 than that (<70%) of HCT-116 treated with supernatant of E. rectale DSM 17629. The cells were induced to undergo apoptosis by both supernatant. The apoptosis occured through mitochondrial pathway by changing the expression of gene Bcl-2 and Bax, thus incresed the Bax/Bcl-2 ratio by more than 3.5 fold. The protein caspase-3 was increased by more than 250% in the presence of the cell free supernatant.展开更多
The gut microbiota plays an important role in the development and progression of colorectal cancer (CRC). To learn more about the dysbiosis of carcinogenesis, we assessed alterations in gut microbiota in patients with...The gut microbiota plays an important role in the development and progression of colorectal cancer (CRC). To learn more about the dysbiosis of carcinogenesis, we assessed alterations in gut microbiota in patients with CRC. A total of 23 subjects were enrolled in this study: 9 had CRC (CRC group) and 14 had normal colons (normal group). The microbiome of the mucosal-luminal interface of each subject was sampled and analyzed using 16S rRNA gene amplicon sequencing. We also used Phylogenetic Investigation of Communities by Reconstruction of Unobserved States (PICRUSt) to predict microbial functional profiles. The microbial composition of the mucosal lumen differed between the groups, and the presence of specific bacteria may serve as a potential biomarker for colorectal carcinogenesis. We identified a significant reduction in Eubacterium, which is a butyrate-producing genera of bacteria, and a significant increase in Devosia in the gut microbiota of CRC patients. Different levels of gut microflora in healthy and CRC samples were identified. The observed abundance of bacterial species belonging to Eubacterium and Devosia may serve as a promising biomarker for the early detection of CRC.展开更多
文摘AIM: To examine the effect of Eubacteriuro Iiroosuro (E.Iiroosuro) on colonic epithelial cell line in vitro, and to evaluate the effect of E.limosum on experimental colitis.METHODS: E.Iimosum was inoculated anaerobically and its metabolites were obtained. The growth stimulatory effect of the E.limosum metabolites on T84 cells was evaluated by SUDH activity, and the anti-inflammatory effect by IL-6 production. The change in mRNA of toll like receptor 4 (TLR4) was evaluated by real time PCR. Colitis was induced by feeding BALB/C mice with 2.0% dextran sodium sulfate. These mice received either 5% lyophilized E.lirnosum (n=7) or control diet (n=7). Seven days after colitis induction, clinical and histological scores, colon length, and cecal organic acid levels were determined.RESULTS: The E.Iimosum produced butyrate, acetate, propionate, and lactate at 0.25, 1.0, 0.025 and 0.07 retool/L, respectively in medium. At this concentration, each acid had no growth stimulating activity on T84 cells; however, when these acids were mixed together at the above levels, it showed significantly high activity than control. Except for lactate, these acids significantly attenuated IL-6 production at just 0.1 mmol/L. In addition, under TNF-α stimulation, butyrate attenuated the production of TLR4 mRNA. The treatment with E.limosum significantly attenuated clinical and histological scores of colitis with an increase of cecal butyrate levels, compared with the control group.CONCLUSION: E.limosum can ameliorate experimental colonic inflammation. In part, the metabolite of E.lirnosurn, butyrate, increases mucosal integrity and shows anti-inflammatory action modulation of mucosal defense system via TLR4.
文摘Resistant starch type 3 (RS3) produced from high amylose food sources through retrogradation or enzymatic process is known to have physiological function as dietary fiber. Fermentation of RS3 by colonic microorganisms produced SCFA (acetate, propionate, and butyrate), maintained the health of colon, balance of gut microbiota, preventing inflammatory bowel diseases (IBD) and colon cancer. RS3 in this study was produced from IR-42 and Inpari-16 broken rice by enzymatic treatment (combination of amylase-pullulanase). The Resistant Starch was fermented for 12 and 24 h by colonic microbiota (extracted from healthy human subject), Clostiridium butyricum BCC-B2571, or Eubacterium rectale DSM 17629. SCFA produced was analyzed by gas chromatography. Treatment by amylase-pullulanase combination was advantageous to increase their RS3 content. The result showed that after enzymatic process, the RS3 content of IR-42 (41.13%) was not significantly different (p 0.05) from that of Inpari-16 (37.70%). High concentration of acetate (82.5 mM) and propionate (7.5 mM) were produced by colonic microbiota after 12 h fermentation and best concentration of butyrate (6.8 mM) was produced by colonic microbiota after 24 h fermentation. It is clear that utilization of colonic microbiota rather than single strain was better in the production of SCFA.
基金This work was supported by the National Natural Science Foundation of China(No.82373910,82204409)The“Double First-Class”University Project(CPU2022QZ20,China)。
文摘Chemotherapy-induced mucositis represents a severe adverse outcome of cancer treatment,significantly curtailing the efficacy of these treatments and,in some cases,resulting in fatal conse-quences.Despite identifying intestinal epithelial cell damage as a key factor in chemotherapy-induced mucositis,the paucity of effective treatments for such damage is evident.In our study,we discovered that Eubacterium coprostanoligenes promotes mucin secretion by goblet cells,thereby fortifying the integrity of the intestinal mucus barrier.This enhanced barrier function serves to resist microbial invasion and sub-sequently reduces the inflammatory response.Importantly,this effect remains unobtrusive to the anti-tumor efficacy of chemotherapy drugs.Mechanistically,E.copr up-regulates the expression of AUF1,leading to the stabilization of Muc2 mRNA and an increase in mucin synthesis in goblet cells.An espe-cially significant finding is that E.copr activates the AhR pathway,thereby promoting the expression of AUF1.In summary,our results strongly indicate that E.copr enhances the intestinal mucus barrier,effec-tively alleviating chemotherapy-induced intestinal mucositis by activating the AhR/AUFl pathway,consequently enhancing Muc2 mRNA stability.
文摘The human intestinal microbiota that comprise over 1,000 species thrive in dark and anaerobic environments.They are recognized for the production of diverse low-molecular-weight metabolites crucial to human health and diseases.Carotenoids,low-molecular-weight pigments known for their antioxidative activity,are delivered to humans through oral intake.However,it remains unclear whether human intestinal bacteria biosynthesize carotenoids as part of the in-situ microbiota.In this study,we investigated carotenoid synthesis genes in vari-ous human gut and probiotic bacteria.As a result,novel candidates,the crtM and crtN genes,were identified in the carbon monoxide-utilizing gut anaerobe Eubacterium limosum and the lactic acid bacterium Leuconostoc mesenteroides subsp.mesenteroides.These gene candidates were isolated,introduced into Escherichia coli,which synthesized a carotenoid substrate,and cultured aerobically.Structural analysis of the resulting carotenoids re-vealed that the crtM and crtN gene candidates of E.limosum and L.mesenteroides mediate the production of 4,4′-diaponeurosporene through 15-cis-4,4′-diapophytoene.Evaluation of the crtE-homologous genes in these bacteria indicated their non-functionality for C40-carotenoid production.E.limosum and L.mesenteroides,along with the known carotenogenic lactic acid bacterium Lactiplantibacillus plantarum,were observed to produce no carotenoids under strictly anaerobic conditions.The two lactic acid bacteria synthesized detectable levels of 4,4′-diaponeurosporene under semi-aerobic conditions.The findings highlight that the obligate anaerobe E.limo-sum retains aerobically functional C30-carotenoid biosynthesis genes,potentially with no immediate self-utility,suggesting an evolutionary direction in carotenoid biosynthesis.(229 words)
基金funded by the Liaoning province Department of Education fund(LJKZ0651)the scientific research fund project of Liaoning provincial department of education(LJKZ0430)the Fund for Distinguished Young Scholars of Liaoning Province(2023JH6/100500010)。
文摘The prevalence of high blood pressure is on the rise among younger individuals,and recent findings have linked exercise to changes in the diversity and configuration of gut microbiota.However,specific modifications to one's diet,such as incorporating blueberries while engaging in physical activity,can also influence this association.To explore the effects of exercise and blueberry consumption on gut bacteria,we conducted an 8-week study involving healthy and hypertensive college students.Our microbiome analysis revealed slight shifts in gut bacteria composition in response to increased physical activity,with significant changes in the diversity of the g_[Eubacterium]_eligens_group observed in hypertensive college students who regularly consumed blueberries.Although exercise and blueberry supplementation had a negligible impact on the gut microbiota diversity of healthy college students,it significantly boosted the production of butyric acid bacteria in hypertensive young adults.These results suggest that the changes in gut bacteria variety and abundance brought about by blueberries may be tied to alterations in the body composition of patients with hypertension.This study aims to reveal the impact of blueberry on the hypertensive students from a unique perspective,suggesting the impact of taking blueberry while taking exercises.
基金carried out at the expense of a grant from the Russian Science Foundation No.24-24-20036,https://rscf.ru/project/24-24-20036(accessed on 5 June 2025).
文摘The gut microbiome is a complex community of microorganisms that plays a direct role in the health of both the gastrointestinal tract and the entire body.Numerous factors influence the abundance and diversity of gut microbiota.Microbial imbalance can contribute to disease development.Probiotics are biologically active supplements with promising properties that have high therapeutic potential.Currently,there is a tendency to switch from classic probiotic microorganisms represented by lactic acid bacteria to next-generation probiotics due to their unique ability to influence the human immune system.New-generation probiotics include bacteria such as Akkermansia muciniphila,Faecalibacterium prausnitzii,Bacteroides sp.,Prevotella sp.,Roseburia sp.,and Eubacterium sp.Nextgeneration probiotics can affect host immune cells by secreting various substances,such as butyrate in F.prausnitzii,or through interaction with Toll-like receptors of intestinal epithelial cells,such as A.muciniphila.Studying the role of next-generation probiotics in immune regulation is a promising area of research.This study describes the interactions of next-generation probiotics with the immune system.Understanding the mechanisms of such interactions will improve the treatment of various diseases.
文摘Cell free supernatant containing short chain fatty acid (SCFA) resulted from fermentation of resistant starch type three (RS3) by Clostridium butyricum BCC B2571 or Eubacterium rectale DSM 17629 were investigated for their ability to inhibit proliferation and induce apoptosis of human colon cancer cell line HCT-116. HCT-116 was cultured in complete medium and after 50% confluent, incubation was continued for another 48 hours in the absence or presence cell free supernatant containing SCFA mixture at butyrate levels up to 10 mM. The study revealed that the proliferation inhibition effect was higher (>80%) on HCT-116 treated with supernatant of C. butyricum BCC B2571 than that (<70%) of HCT-116 treated with supernatant of E. rectale DSM 17629. The cells were induced to undergo apoptosis by both supernatant. The apoptosis occured through mitochondrial pathway by changing the expression of gene Bcl-2 and Bax, thus incresed the Bax/Bcl-2 ratio by more than 3.5 fold. The protein caspase-3 was increased by more than 250% in the presence of the cell free supernatant.
基金This current study was supported by the Shanghai Sixth People's Hospital Grant (No. YNLC201725)the National Natural Science Foundation of China (No. 81800708)Outstanding Academic Leaders of Shanghai Health System (No. 2017BR008) and Yangtze River Scholar.
文摘The gut microbiota plays an important role in the development and progression of colorectal cancer (CRC). To learn more about the dysbiosis of carcinogenesis, we assessed alterations in gut microbiota in patients with CRC. A total of 23 subjects were enrolled in this study: 9 had CRC (CRC group) and 14 had normal colons (normal group). The microbiome of the mucosal-luminal interface of each subject was sampled and analyzed using 16S rRNA gene amplicon sequencing. We also used Phylogenetic Investigation of Communities by Reconstruction of Unobserved States (PICRUSt) to predict microbial functional profiles. The microbial composition of the mucosal lumen differed between the groups, and the presence of specific bacteria may serve as a potential biomarker for colorectal carcinogenesis. We identified a significant reduction in Eubacterium, which is a butyrate-producing genera of bacteria, and a significant increase in Devosia in the gut microbiota of CRC patients. Different levels of gut microflora in healthy and CRC samples were identified. The observed abundance of bacterial species belonging to Eubacterium and Devosia may serve as a promising biomarker for the early detection of CRC.
