Esculetin,a natural dihydroxy coumarin derived from the Chinese herbal medicine Cortex Fraxini,has demonstrated significant pharmacological activities,including anticancer properties.Ferroptosis,an iron-dependent form...Esculetin,a natural dihydroxy coumarin derived from the Chinese herbal medicine Cortex Fraxini,has demonstrated significant pharmacological activities,including anticancer properties.Ferroptosis,an iron-dependent form of regulated cell death,has garnered considerable attention due to its lethal effect on tumor cells.However,the exact role of ferroptosis in esculetin-mediated anti-hepatocellular carcinoma(HCC)effects remains poorly understood.This study investigated the impact of esculetin on HCC cells both in vitro and in vivo.The findings indicate that esculetin effectively inhibited the growth of HCC cells.Importantly,esculetin promoted the accumulation of intracellular Fe^(2+),leading to an increase in ROS production through the Fenton reaction.This event subsequently induced lipid peroxidation(LPO)and triggered ferroptosis within the HCC cells.The occurrence of ferroptosis was confirmed by the elevation of malondialdehyde(MDA)levels,the depletion of glutathione peroxidase(GSH-Px)activity,and the disruption of mitochondrial morphology.Notably,the inhibitor of ferroptosis,ferrostatin-1(Fer-1),attenuated the anti-tumor effect of esculetin in HCC cells.Furthermore,the findings revealed that esculetin inhibited the Nrf2-xCT/GPx4 axis signaling in HCC cells.Overexpression of Nrf2 upregulated the expression of downstream SLC7A11 and GPX4,consequently alleviating esculetin-induced ferroptosis.In conclusion,this study suggests that esculetin exerts an anti-HCC effect by inhibiting the activity of the Nrf2-xCT/GPx4 axis,thereby triggering ferroptosis in HCC cells.These findings may contribute to the potential clinical use of esculetin as a candidate for HCC treatment.展开更多
A broad spectrum of liver disorders and their associated complications most notably hepatic encephalopathy impact millions of individuals worldwide,including conditions such as non-alcoholic fatty liver disease,alcoho...A broad spectrum of liver disorders and their associated complications most notably hepatic encephalopathy impact millions of individuals worldwide,including conditions such as non-alcoholic fatty liver disease,alcoholic liver injury,viral hepatitis,hepatic fibrosis,cirrhosis,and hepatocellular carcinoma.The underlying pathogenic mechanisms are multifactorial,encompassing oxidative stress,inflammatory cascades,mitochondrial impairment,and disturbances in immune homeostasis.Hepatic encephalopathy patients experience cognitive impairment,mood disturbances,and psychomotor dysfunction,significantly reducing quality of life through mechanisms including oxidative stress,neuroinflammation,and neurotransmitter imbalances.The nuclear factor erythroid 2-related factor 2(Nrf2)/heme oxygenase-1(HO-1)signaling pathway serves as a critical antioxidative defense mechanism in these conditions.Nrf2 regulates the expression of protective enzymes,while HO-1 exerts anti-inflammatory,anti-apoptotic,and antifibrotic effects through heme degradation products.Natural herbal monomers as Nrf2 activators offer advantages of low toxicity,multi-target actions,and extensive traditional use.Various herbal monomers demonstrate specific effects against different liver diseases:In fatty liver,baicalin alleviates lipid accumulation and inflammation;In alcoholic liver disease,curcumin enhances Nrf2 activity reducing oxidative damage;In drug-induced liver injury,dihydromyricetin mitigates oxidative stress;In viral hepatitis,andrographolide inhibits hepatitis C virus replication;In liver fibrosis,multiple compounds inhibit stellate cell activation.These natural compounds simultaneously alleviate hepatic dysfunction and neuropsychiatric symptoms by modulating the Nrf2/HO-1 pathway,though clinical application still faces challenges such as low bioavailability,requiring further research.展开更多
BACKGROUND Ferroptosis is an iron-dependent programmed non-apoptotic cell death characterized by the accumulation of free iron ions and lipid peroxidation.It is associated with the inactivation of glutathione peroxida...BACKGROUND Ferroptosis is an iron-dependent programmed non-apoptotic cell death characterized by the accumulation of free iron ions and lipid peroxidation.It is associated with the inactivation of glutathione peroxidase(GPX)and the accumulation of lipid peroxides within cells.Ferroptosis is closely related to the occurrence and development of hepatocellular carcinoma(HCC).Chlorogenic acid(CGA),an important bioactive component found in 61 traditional Chinese medicines such as Eucommia ulmoides,has been extensively studied for its effects on various malignant tumors.However,the specific role and potential mechanism of CGA in HCC remain unclear.AIM To elucidate the anti-tumor characteristics and potential mechanisms of CGA in inducing ferroptosis in HCC cells.METHODS The effects of CGA on the proliferation,migration,and invasion of HCC cells were evaluated through in vitro experiments.Bioinformatics analysis combined with network pharmacology was used to study the potential targets and molecular mechanisms of CGA intervention in HCC ferroptosis.In vitro experiments were conducted to verify and explore the anti-HCC effects and mechanisms of CGA through the ferroptosis pathway.RESULTS In vitro experiments showed that CGA dose-dependently inhibited the proliferation,invasion,and migration of HCC cells.Bioinformatics analysis combined with network pharmacology revealed that the pathway of CGA intervention in HCC cell ferroptosis was mainly enriched in the prostaglandin endoperoxide synthase 2(PTGS2)/aldoketo reductase family 1 member C3(AKR1C3)/GPX4 signaling pathway,which was associated with arachidonic acid.In vitro experiments further confirmed that CGA-induced ferroptosis in HCC cells was related to mitochondrial damage through the reprogramming of arachidonic acid metabolism by regulating the PTGS2/AKR1C3/GPX4 signaling pathway.CONCLUSION This study demonstrates that CGA inhibits HCC cell proliferation,migration,and invasion by inducing ferroptosis through the PTGS2/AKR1C3/GPX4 axis,suggesting its potential as a novel ferroptosis inducer or anti-HCC drug.展开更多
The SOCS1/JAK2/STAT3 axis is strongly associated with tumor growth and progression,and participates in cytokine secretion in many diseases.However,the effects of the SOCS1/JAK2/STAT3 axis in experimental subarachnoid ...The SOCS1/JAK2/STAT3 axis is strongly associated with tumor growth and progression,and participates in cytokine secretion in many diseases.However,the effects of the SOCS1/JAK2/STAT3 axis in experimental subarachnoid hemorrhage remain to be studied.A subarachnoid hemorrhage model was established in rats by infusing autologous blood into the optic chiasm pool.Some rats were first treated with JAK2/STAT3 small interfering RNA(Si-JAK2/Si-STAT3)or overexpression plasmids of JAK2/STAT3.In the brains of subarachnoid hemorrhage model rats,the expression levels of both JAK2 and STAT3 were upregulated and the expression of SOCS1 was downregulated,reaching a peak at 48 hours after injury.Simultaneously,the interactions between JAK2 and SOCS1 were reduced.In contrast,the interactions between JAK2 and STAT3 were markedly enhanced.Si-JAK2 and Si-STAT3 treatment alleviated cortical neuronal cell apoptosis and necrosis,destruction of the blood-brain barrier,brain edema,and cognitive functional impairment after subarachnoid hemorrhage.This was accompanied by decreased phosphorylation of JAK2 and STAT3 protein,decreased total levels of JAK2 and STAT3 protein,and increased SOCS1 protein expression.However,overexpression of JAK2 and STAT3 exerted opposite effects,aggravating subarachnoid hemorrhage-induced early brain injury.Si-JAK2 and Si-STAT3 inhibited M1-type microglial conversion and the release of pro-inflammatory factors(inducible nitric oxide synthase,interleukin-1β,and tumor necrosis factor-α)and increased the release of anti-inflammatory factors(arginase-1,interleukin-10,and interleukin-4).Furthermore,primary neurons stimulated with oxyhemoglobin were used to simulate subarachnoid hemorrhage in vitro,and the JAK2 inhibitor AG490 was used as an intervention.The in vitro results also suggested that neuronal protection is mediated by the inhibition of JAK2 and STAT3 expression.Together,our findings indicate that the SOCS1/JAK2/STAT3 axis contributes to early brain injury after subarachnoid hemorrhage both in vitro and in vivo by inducing inflammatory responses.This study was approved by the Animal Ethics Committee of Anhui Medical University and the First Affiliated Hospital of University of Science and Technology of China(approval No.LLSC-20180202)on March 1,2018.展开更多
Loganin(LOG),a bioactive compound derived from Cornus officinalis Siebold & Zucc,has been understudied in the context of osteoarthritis(OA)treatment.In this study,we induced an inflammatory response in chondrocyte...Loganin(LOG),a bioactive compound derived from Cornus officinalis Siebold & Zucc,has been understudied in the context of osteoarthritis(OA)treatment.In this study,we induced an inflammatory response in chondrocytes using lipopolysaccharide(LPS)and subsequently treated these cells with LOG.We employed fluorescence analysis to quantify reactive oxygen species(ROS)levels and measured the expression of NLRP3 and nuclear factor erythropoietin-2-related factor 2(NRF2)using real-time quantitative polymerase chain reaction(qRT-PCR),Western blotting,and immunofluorescence(IF)techniques.Additionally,we developed an OA mouse model by performing medial meniscus destabilization(DMM)surgery and monitored disease progression through micro-com-puted tomography(micro-CT),hematoxylin and eosin(H&E)staining,safranin O and fast green(S&F)staining,and immunohisto-chemical(IHC)analysis.Our results indicate that LOG significantly reduced LPS-induced ROS levels in chondrocytes,inhibited the activation of the NLRP3 inflammasome,and enhanced NRF2/heme oxygenase 1(HO-1)signaling.In vivo,LOG treatment mitigated cartilage degradation and osteophyte formation triggered by DMM surgery,decreased NLRP3 expression,and increased NRF2 expres-sion.These findings suggest that LOG has a protective effect against OA,potentially delaying disease progression by inhibiting the ROS-NLRP3-IL-1β axis and activating the NRF2/HO-1 pathway.展开更多
Compelling evidence supports the crucial role of the receptor for advanced glycation end-products(RAGE)axis activation in many clinical entities.Since the beginning of the coronavirus disease 2019 pandemic,there is an...Compelling evidence supports the crucial role of the receptor for advanced glycation end-products(RAGE)axis activation in many clinical entities.Since the beginning of the coronavirus disease 2019 pandemic,there is an increasing concern about the risk and handling of severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection in inflammatory gastrointestinal disorders,such as inflammatory bowel diseases(IBD).However,clinical data raised during pandemic suggests that IBD patients do not have an increased risk of contracting SARS-CoV-2 infection or develop a more severe course of infection.In the present review,we intend to highlight how two potentially important contributors to the inflammatory response to SARS-CoV-2 infection in IBD patients,the RAGE axis activation as well as the cross-talk with the renin-angiotensin system,are dampened by the high expression of soluble forms of both RAGE and the angiotensin-converting enzyme(ACE)2.The soluble form of RAGE functions as a decoy for its ligands,and soluble ACE2 seems to be an additionally attenuating contributor to RAGE axis activation,particularly by avoiding the transactivation of the RAGE axis that can be produced by the virus-mediated imbalance of the ACE/angiotensin II/angiotensin II receptor type 1 pathway.展开更多
Background In the realm of swine production,optimizing body composition and reducing excessive fat accumulation is critical for enhancing both economic efficiency and meat quality.Despite the acknowledged impact of di...Background In the realm of swine production,optimizing body composition and reducing excessive fat accumulation is critical for enhancing both economic efficiency and meat quality.Despite the acknowledged impact of dietary calcium(Ca)and phosphorus(P)on lipid metabolisme the precise mechanisms behind their synergistic effects on fat metabolism remain elusive.Results Research observations have shown a decreasing trend in the percentage of crude fat in carcasses with increased calcium and phosphorus content in feed.Concurrently,serum glucose concentrations significantly decreased,though differences in other lipid metabolism-related indicators were not significant across groups.Under conditions of low calcium and phosphorus,there is a significant suppression in the expression of FABPs,CD36 and PPARy in the jejunum and ileum,leading to inhibited intestinal lipid absorption.Concurrently,this results in a marked increase in lipid accumulation in the liver.Conversely,higher levels of dietary calcium and phosphorus promoted intestinal lipid absorption and reduced liver lipid accumulation,with these changes being facilitated through the activation of the CAMKK2/AMPK signaling pathway by high-calcium-phosphorus diets.Additionally,the levels of calcium and phosphorus in the diet significantly altered the composition of liver lipids and the gut microbiota,increa sing a-diversity and affecting the abundance of specific bacterial fa m ilies related to lipid metabolism.Conclusion The evidence we provide indicates that the levels of calcium and phosphorus in the diet alter body fat content and lipid metabolism by modulating the response of the gut-liver axis to lipids.These effects are closely associated with the activation of the CAMKK2/AMPK signaling pathway.展开更多
This study investigates the molecular complexities of non-alcoholic fatty liver disease(NAFLD)-induced brain dysfunction,with a focus on the liver-intestine-brain axis and potential therapeutic interventions.The main ...This study investigates the molecular complexities of non-alcoholic fatty liver disease(NAFLD)-induced brain dysfunction,with a focus on the liver-intestine-brain axis and potential therapeutic interventions.The main objectives include understanding critical microbiota shifts in NAFLD,exploring altered metabolites,and identifying key regulatory molecules influencing brain function.The methods employed encompassed 16S ribosomal RNA(rRNA)sequencing to scrutinize stool microbiota in NAFLD patients and healthy individuals,non-targeted metabolomics using LC-MS to uncover elevated levels of deoxycholic acid(DCA)in NAFLD mice,and single-cell RNA sequencing(scRNA-seq)to pinpoint the pivotal gene Hpgd in microglial cells and its downstream Janus kinase 2/signal transducer and activator of transcription 3(JAK2/STAT3)signaling pathway.Behavioral changes and brain function were assessed in NAFLD mice with and without fecal microbiota transplantation(FMT)treatment,utilizing various assays and analyses.The results revealed significant differences in microbiota composition,with increased levels of Bacteroides in NAFLD patients.Additionally,elevated DCA levels were observed in NAFLD mice,and FMT treatment demonstrated efficacy in ameliorating liver function and brain dysfunction.Hpgd inhibition by DCA activated the JAK2/STAT3 pathway in microglial cells,leading to inflammatory activation,inhibition of mitochondrial autophagy,induction of neuronal apoptosis,and reduction in neuronal action potentials.This study elucidates the intricate molecular mechanisms underlying the liver-gut-brain axis in NAFLD,and the identification of increased DCA and the impact of JAK2/STAT3 signaling on microglial cells highlight potential therapeutic targets for addressing NAFLD-induced brain dysfunction.展开更多
The P-element induced wimpy testis(Piwi)proteins,which are associated with PIWI-interacting RNAs(piRNAs),play important roles in meiosis,germ cell division,and germline maintenance.In this study,we identified and char...The P-element induced wimpy testis(Piwi)proteins,which are associated with PIWI-interacting RNAs(piRNAs),play important roles in meiosis,germ cell division,and germline maintenance.In this study,we identified and characterized the Paralichthys olivaceus piwil2 gene,a constituent factor of the piRNA pathways involved in the biogenesis of reproductive development.The biological analysis indicated that piwil2,which contains PAZ and PIWI domains,was highly conserved between teleosts and tetrapods.The piwil2 distribution profile in different tissues confirmed a sexually dimorphic expression pattern,with a higher expression level in testis.In situ hybridization demonstrated that piwil2 was expressed in the oogonia and oocytes of the ovaries as well as in the Sertoli cells and spermatocytes of the testes.Gene piwil2 showed a maternally inherited expression pattern during embryonic development,and was highly expressed during the early embryonic development.Different luciferase reporters were constructed to determine the transcriptional regulatory mechanisms of piwil2.The piwil2 core promoter region was located at−360 bp to−60 bp.Furthermore,some representative sex hormones,including human chorionic gonadotropin,17α-methyltestosterone,and estradiol-17βhad distinct regulatory effects on piwil2.In a summery,these results indicate that piwil2,regulated by sex hormones and transcriptional elements,has vital functions in the reproductive cycle and gonadal development.展开更多
基金supported by the Natural Science Foundations of Fujian Province(Nos.2021J05063 and 2023J01541)a startup grant for High-level Talents of Fujian Medical University(No.XRCZX2021014)。
文摘Esculetin,a natural dihydroxy coumarin derived from the Chinese herbal medicine Cortex Fraxini,has demonstrated significant pharmacological activities,including anticancer properties.Ferroptosis,an iron-dependent form of regulated cell death,has garnered considerable attention due to its lethal effect on tumor cells.However,the exact role of ferroptosis in esculetin-mediated anti-hepatocellular carcinoma(HCC)effects remains poorly understood.This study investigated the impact of esculetin on HCC cells both in vitro and in vivo.The findings indicate that esculetin effectively inhibited the growth of HCC cells.Importantly,esculetin promoted the accumulation of intracellular Fe^(2+),leading to an increase in ROS production through the Fenton reaction.This event subsequently induced lipid peroxidation(LPO)and triggered ferroptosis within the HCC cells.The occurrence of ferroptosis was confirmed by the elevation of malondialdehyde(MDA)levels,the depletion of glutathione peroxidase(GSH-Px)activity,and the disruption of mitochondrial morphology.Notably,the inhibitor of ferroptosis,ferrostatin-1(Fer-1),attenuated the anti-tumor effect of esculetin in HCC cells.Furthermore,the findings revealed that esculetin inhibited the Nrf2-xCT/GPx4 axis signaling in HCC cells.Overexpression of Nrf2 upregulated the expression of downstream SLC7A11 and GPX4,consequently alleviating esculetin-induced ferroptosis.In conclusion,this study suggests that esculetin exerts an anti-HCC effect by inhibiting the activity of the Nrf2-xCT/GPx4 axis,thereby triggering ferroptosis in HCC cells.These findings may contribute to the potential clinical use of esculetin as a candidate for HCC treatment.
基金the National Natural Science Foundation of China,No.82074425Natural Foundation of Hunan Province,No.2023JJ30364 and No.2023JJ30361+1 种基金Hunan Provincial Key R&D Program,No.2023SK2057Key Project of Hunan Provincial Administration of Traditional Chinese Medicine,No.A2023042.
文摘BACKGROUND Ferroptosis is an iron-dependent programmed non-apoptotic cell death characterized by the accumulation of free iron ions and lipid peroxidation.It is associated with the inactivation of glutathione peroxidase(GPX)and the accumulation of lipid peroxides within cells.Ferroptosis is closely related to the occurrence and development of hepatocellular carcinoma(HCC).Chlorogenic acid(CGA),an important bioactive component found in 61 traditional Chinese medicines such as Eucommia ulmoides,has been extensively studied for its effects on various malignant tumors.However,the specific role and potential mechanism of CGA in HCC remain unclear.AIM To elucidate the anti-tumor characteristics and potential mechanisms of CGA in inducing ferroptosis in HCC cells.METHODS The effects of CGA on the proliferation,migration,and invasion of HCC cells were evaluated through in vitro experiments.Bioinformatics analysis combined with network pharmacology was used to study the potential targets and molecular mechanisms of CGA intervention in HCC ferroptosis.In vitro experiments were conducted to verify and explore the anti-HCC effects and mechanisms of CGA through the ferroptosis pathway.RESULTS In vitro experiments showed that CGA dose-dependently inhibited the proliferation,invasion,and migration of HCC cells.Bioinformatics analysis combined with network pharmacology revealed that the pathway of CGA intervention in HCC cell ferroptosis was mainly enriched in the prostaglandin endoperoxide synthase 2(PTGS2)/aldoketo reductase family 1 member C3(AKR1C3)/GPX4 signaling pathway,which was associated with arachidonic acid.In vitro experiments further confirmed that CGA-induced ferroptosis in HCC cells was related to mitochondrial damage through the reprogramming of arachidonic acid metabolism by regulating the PTGS2/AKR1C3/GPX4 signaling pathway.CONCLUSION This study demonstrates that CGA inhibits HCC cell proliferation,migration,and invasion by inducing ferroptosis through the PTGS2/AKR1C3/GPX4 axis,suggesting its potential as a novel ferroptosis inducer or anti-HCC drug.
基金This study was supported by the National Natural Science Foundation of China,No.81500375(to XQK)the Fundamental Research Funds for the Central Universities,No.WK9110000112(to YW)+1 种基金the Anhui Provincial Natural Science Foundation of China,No.1508085QH184(to YW)Shandong Provincial Natural Science Foundation of China,No.ZR2015HQ001(to XQK).
文摘The SOCS1/JAK2/STAT3 axis is strongly associated with tumor growth and progression,and participates in cytokine secretion in many diseases.However,the effects of the SOCS1/JAK2/STAT3 axis in experimental subarachnoid hemorrhage remain to be studied.A subarachnoid hemorrhage model was established in rats by infusing autologous blood into the optic chiasm pool.Some rats were first treated with JAK2/STAT3 small interfering RNA(Si-JAK2/Si-STAT3)or overexpression plasmids of JAK2/STAT3.In the brains of subarachnoid hemorrhage model rats,the expression levels of both JAK2 and STAT3 were upregulated and the expression of SOCS1 was downregulated,reaching a peak at 48 hours after injury.Simultaneously,the interactions between JAK2 and SOCS1 were reduced.In contrast,the interactions between JAK2 and STAT3 were markedly enhanced.Si-JAK2 and Si-STAT3 treatment alleviated cortical neuronal cell apoptosis and necrosis,destruction of the blood-brain barrier,brain edema,and cognitive functional impairment after subarachnoid hemorrhage.This was accompanied by decreased phosphorylation of JAK2 and STAT3 protein,decreased total levels of JAK2 and STAT3 protein,and increased SOCS1 protein expression.However,overexpression of JAK2 and STAT3 exerted opposite effects,aggravating subarachnoid hemorrhage-induced early brain injury.Si-JAK2 and Si-STAT3 inhibited M1-type microglial conversion and the release of pro-inflammatory factors(inducible nitric oxide synthase,interleukin-1β,and tumor necrosis factor-α)and increased the release of anti-inflammatory factors(arginase-1,interleukin-10,and interleukin-4).Furthermore,primary neurons stimulated with oxyhemoglobin were used to simulate subarachnoid hemorrhage in vitro,and the JAK2 inhibitor AG490 was used as an intervention.The in vitro results also suggested that neuronal protection is mediated by the inhibition of JAK2 and STAT3 expression.Together,our findings indicate that the SOCS1/JAK2/STAT3 axis contributes to early brain injury after subarachnoid hemorrhage both in vitro and in vivo by inducing inflammatory responses.This study was approved by the Animal Ethics Committee of Anhui Medical University and the First Affiliated Hospital of University of Science and Technology of China(approval No.LLSC-20180202)on March 1,2018.
基金supported by the National Natural Science Foundation of China(No.82074462)the Major Research Project of Guangzhou University of Chinese Medicine(No.2021xk53)the First Affiliated Hospital of Guangzhou University of Chinese Medicine National Center for Traditional Chinese Medicine Inheritance and Innovation Special Research(No.2022QN02).
文摘Loganin(LOG),a bioactive compound derived from Cornus officinalis Siebold & Zucc,has been understudied in the context of osteoarthritis(OA)treatment.In this study,we induced an inflammatory response in chondrocytes using lipopolysaccharide(LPS)and subsequently treated these cells with LOG.We employed fluorescence analysis to quantify reactive oxygen species(ROS)levels and measured the expression of NLRP3 and nuclear factor erythropoietin-2-related factor 2(NRF2)using real-time quantitative polymerase chain reaction(qRT-PCR),Western blotting,and immunofluorescence(IF)techniques.Additionally,we developed an OA mouse model by performing medial meniscus destabilization(DMM)surgery and monitored disease progression through micro-com-puted tomography(micro-CT),hematoxylin and eosin(H&E)staining,safranin O and fast green(S&F)staining,and immunohisto-chemical(IHC)analysis.Our results indicate that LOG significantly reduced LPS-induced ROS levels in chondrocytes,inhibited the activation of the NLRP3 inflammasome,and enhanced NRF2/heme oxygenase 1(HO-1)signaling.In vivo,LOG treatment mitigated cartilage degradation and osteophyte formation triggered by DMM surgery,decreased NLRP3 expression,and increased NRF2 expres-sion.These findings suggest that LOG has a protective effect against OA,potentially delaying disease progression by inhibiting the ROS-NLRP3-IL-1β axis and activating the NRF2/HO-1 pathway.
文摘Compelling evidence supports the crucial role of the receptor for advanced glycation end-products(RAGE)axis activation in many clinical entities.Since the beginning of the coronavirus disease 2019 pandemic,there is an increasing concern about the risk and handling of severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)infection in inflammatory gastrointestinal disorders,such as inflammatory bowel diseases(IBD).However,clinical data raised during pandemic suggests that IBD patients do not have an increased risk of contracting SARS-CoV-2 infection or develop a more severe course of infection.In the present review,we intend to highlight how two potentially important contributors to the inflammatory response to SARS-CoV-2 infection in IBD patients,the RAGE axis activation as well as the cross-talk with the renin-angiotensin system,are dampened by the high expression of soluble forms of both RAGE and the angiotensin-converting enzyme(ACE)2.The soluble form of RAGE functions as a decoy for its ligands,and soluble ACE2 seems to be an additionally attenuating contributor to RAGE axis activation,particularly by avoiding the transactivation of the RAGE axis that can be produced by the virus-mediated imbalance of the ACE/angiotensin II/angiotensin II receptor type 1 pathway.
基金financially supported by the National Key Research and Development Program of China(2021YFD1300402)Research Fund of Maoming Branch,Guangdong Laboratory for Lingnan Modern Agriculture(2022ZD003,2021TDQD002)+1 种基金the earmarked fund for China Agriculture Research System(CARS-35)Special Project for Rural Revitalization Strategy in Guangdong Province(2023TS-3-1)。
文摘Background In the realm of swine production,optimizing body composition and reducing excessive fat accumulation is critical for enhancing both economic efficiency and meat quality.Despite the acknowledged impact of dietary calcium(Ca)and phosphorus(P)on lipid metabolisme the precise mechanisms behind their synergistic effects on fat metabolism remain elusive.Results Research observations have shown a decreasing trend in the percentage of crude fat in carcasses with increased calcium and phosphorus content in feed.Concurrently,serum glucose concentrations significantly decreased,though differences in other lipid metabolism-related indicators were not significant across groups.Under conditions of low calcium and phosphorus,there is a significant suppression in the expression of FABPs,CD36 and PPARy in the jejunum and ileum,leading to inhibited intestinal lipid absorption.Concurrently,this results in a marked increase in lipid accumulation in the liver.Conversely,higher levels of dietary calcium and phosphorus promoted intestinal lipid absorption and reduced liver lipid accumulation,with these changes being facilitated through the activation of the CAMKK2/AMPK signaling pathway by high-calcium-phosphorus diets.Additionally,the levels of calcium and phosphorus in the diet significantly altered the composition of liver lipids and the gut microbiota,increa sing a-diversity and affecting the abundance of specific bacterial fa m ilies related to lipid metabolism.Conclusion The evidence we provide indicates that the levels of calcium and phosphorus in the diet alter body fat content and lipid metabolism by modulating the response of the gut-liver axis to lipids.These effects are closely associated with the activation of the CAMKK2/AMPK signaling pathway.
基金supported by National Natural Science Foundation of China(Grant No.:82200971)China Postdoctoral Science Foundation funded project(Grant No.:2023MD744267)Project of Liaoning Provincial Department of Science and Technology,China(Grant Nos.:2023JH2/20200120 and 2022-MS-180).
文摘This study investigates the molecular complexities of non-alcoholic fatty liver disease(NAFLD)-induced brain dysfunction,with a focus on the liver-intestine-brain axis and potential therapeutic interventions.The main objectives include understanding critical microbiota shifts in NAFLD,exploring altered metabolites,and identifying key regulatory molecules influencing brain function.The methods employed encompassed 16S ribosomal RNA(rRNA)sequencing to scrutinize stool microbiota in NAFLD patients and healthy individuals,non-targeted metabolomics using LC-MS to uncover elevated levels of deoxycholic acid(DCA)in NAFLD mice,and single-cell RNA sequencing(scRNA-seq)to pinpoint the pivotal gene Hpgd in microglial cells and its downstream Janus kinase 2/signal transducer and activator of transcription 3(JAK2/STAT3)signaling pathway.Behavioral changes and brain function were assessed in NAFLD mice with and without fecal microbiota transplantation(FMT)treatment,utilizing various assays and analyses.The results revealed significant differences in microbiota composition,with increased levels of Bacteroides in NAFLD patients.Additionally,elevated DCA levels were observed in NAFLD mice,and FMT treatment demonstrated efficacy in ameliorating liver function and brain dysfunction.Hpgd inhibition by DCA activated the JAK2/STAT3 pathway in microglial cells,leading to inflammatory activation,inhibition of mitochondrial autophagy,induction of neuronal apoptosis,and reduction in neuronal action potentials.This study elucidates the intricate molecular mechanisms underlying the liver-gut-brain axis in NAFLD,and the identification of increased DCA and the impact of JAK2/STAT3 signaling on microglial cells highlight potential therapeutic targets for addressing NAFLD-induced brain dysfunction.
基金This study was supported by the National Natural Science Foundation of China(No.31672646)the Natural Science Foundation of Shandong Province(No.ZR 2017MC072).
文摘The P-element induced wimpy testis(Piwi)proteins,which are associated with PIWI-interacting RNAs(piRNAs),play important roles in meiosis,germ cell division,and germline maintenance.In this study,we identified and characterized the Paralichthys olivaceus piwil2 gene,a constituent factor of the piRNA pathways involved in the biogenesis of reproductive development.The biological analysis indicated that piwil2,which contains PAZ and PIWI domains,was highly conserved between teleosts and tetrapods.The piwil2 distribution profile in different tissues confirmed a sexually dimorphic expression pattern,with a higher expression level in testis.In situ hybridization demonstrated that piwil2 was expressed in the oogonia and oocytes of the ovaries as well as in the Sertoli cells and spermatocytes of the testes.Gene piwil2 showed a maternally inherited expression pattern during embryonic development,and was highly expressed during the early embryonic development.Different luciferase reporters were constructed to determine the transcriptional regulatory mechanisms of piwil2.The piwil2 core promoter region was located at−360 bp to−60 bp.Furthermore,some representative sex hormones,including human chorionic gonadotropin,17α-methyltestosterone,and estradiol-17βhad distinct regulatory effects on piwil2.In a summery,these results indicate that piwil2,regulated by sex hormones and transcriptional elements,has vital functions in the reproductive cycle and gonadal development.
