Background:Chronic prostatitis/chronic pelvic pain syndrome(CP/CPPS)is a frequently encountered disorder characterized by voiding symptoms and pelvic or perineal pain.Proinflammatory T helper 17(Th17)cells are essenti...Background:Chronic prostatitis/chronic pelvic pain syndrome(CP/CPPS)is a frequently encountered disorder characterized by voiding symptoms and pelvic or perineal pain.Proinflammatory T helper 17(Th17)cells are essential for triggering the development of CP/CPPS.High-salt diet(HSD)consumption has been found to cause an accumulation of sodium chloride in peripheral organs,inducing autoimmune responses via the Th17 cell axis.It is currently unknown whether HSD affects the etiology and course of CP/CPPS.Methods:Patients diagnosed with CP/CPPS were evaluated with the National Institutes of Health Chronic Prostatitis Symptom Index scoring system,and the correlation between the symptoms of CP/CPPS with HSD was analyzed.The experimental autoimmune prostatitis(EAP)mouse was established and the mice were fed either a normal-salt diet(NSD)or HSD for 6 weeks to investigate the impact of HSD on CP/CPPS.Then,16S ribosomal RNA sequencing and untargeted metabolomics were introduced to detect the differences in the gut microflora composition and metabolite profiles between NSD-fed and HSD-fed mice,followed by fecal microbiota transplantation,5-hydroxyindole acetic acid(5-HIAA)supplementation,aryl hydrocarbon receptor(AHR)inhibition,and in vitro Th17 differentiation experiments,which were performed to explore the mechanisms underlying HSD-aggravated CP/CPPS.Finally,chromatin immunoprecipitation assay and quantitative polymerase chain reaction were conducted to validate whether AHR can serve as a transcription factor by interacting with the serum and glucocorticoid-regulated kinase 1(Sgk1)promoter in CD4^(+)T cells.Results:Increased salt consumption had a positive correlation with symptom scores of CP/CPPS patients,which was validated by feeding EAP mice with HSD,and HSD worsened the prostate inflammation and tactile allodynia in EAP mice through promoting the differentiation of CD4^(+)T cells to Th17 cells.HSD exacerbated EAP by significantly reducing the relative abundance of beneficial gut microflora,such as Lactobacillaceae,and gut microbiota metabolite 5-HIAA,which is related to tryptophan metabolism.The prostate inflammation,tactile allodynia,and proportion of Th17 cells in mice that received fecal suspensions from the EAP^(+)HSD group were significantly more severe or higher than those in mice that received fecal suspensions from the EAP^(+)NSD group.However,5-HIAA supplementation ameliorated the symptoms of EAP caused by HSD through inhibiting the differentiation of CD4^(+)T cells to Th17 cells,while AHR inhibition abrogated the protective effects of 5-HIAA supplementation on EAP mice fed a HSD through promoting the differentiation of CD4^(+)T cells to Th17 cells.Mechanistically,it has been revealed that the SGK1/forkhead box protein O1(FOXO1)pathway was significantly activated during cytokine-induced Th17 cell differentiation,and AHR has been shown to inhibit SGK1 transcription by interacting with the Sgk1 promoter in CD4^(+)T cells to inhibit FOXO1 phosphorylation,consequently restoring the equilibrium of Th17 cell differentiation.Conclusions:Our findings indicated that high salt intake represented a risk factor for the development of CP/CPPS as it promoted the differentiation of CD4^(+)T cells to Th17 cells through the 5-HIAA/AHR/SGK1/FOXO1 axis,which might be a potential therapeutic target for CP/CPPS.展开更多
Numerous studies have established a link between hypertension(HTN)and a high-salt diet(HSD).However,the precise mechanisms are still being investigated,with increasing evidence suggesting that HSD can alter the gut mi...Numerous studies have established a link between hypertension(HTN)and a high-salt diet(HSD).However,the precise mechanisms are still being investigated,with increasing evidence suggesting that HSD can alter the gut microbiome balance,influence the production of microbiome metabolites and potentially lead to high blood pressure,presenting a promising avenue for targeting specific microbiota in HTN treatment.Short-chain fatty acids(SCFAs)are produced by gut bacteria and are associated with blood pressure regulation.Thus,the relationships among HSD,SCFAs,and blood pressure could provide valuable information on the pathophysiology of HTN.This study aimed to assess the impact of HSD on HTN by investigating its influence on the gut microbiota composition and SCFA levels in a rat model of HTN.展开更多
Nitrate(NO3-)is a widespread pollutant in high-salt wastewater and causes serious harm to human health.Although electrochemical removal of nitrate has been demonstrated to be a promising treatment method,the developme...Nitrate(NO3-)is a widespread pollutant in high-salt wastewater and causes serious harm to human health.Although electrochemical removal of nitrate has been demonstrated to be a promising treatment method,the development of low-cost electro-catalysts is still challenging.In this work,a phosphate modified iron(P-Fe)cathode was prepared for electrochemical removal of nitrate in high-salt wastewater.The phosphate modification greatly improved the activity of iron,and the removal rate of nitrate on P-Fe was three times higher than that on Fe electrode.Further experiments and density functional theory(DFT)calculations demonstrated that the modification of phosphoric acid improved the stability and the activity of the zero-valent iron electrode effectively for NO_(3)^(-) removal.The nitrate was firstly electrochemically reduced to ammonium,and then reacted with the anodic generated hypochlorite to N_(2).In this study,a strategy was developed to improve the activity and stability of metal electrode for NO_(3)^(-)removal,which opened up a new field for the efficient reduction of NO3-removal by metal electrode materials.展开更多
High-salt diet is well recognized as a risk factor for hypertension,and dietary intervention plays a critical role in the prevention of hypertension.The current study investigated the effects of selenium-enriched gree...High-salt diet is well recognized as a risk factor for hypertension,and dietary intervention plays a critical role in the prevention of hypertension.The current study investigated the effects of selenium-enriched green tea(Se-GT)and ordinary green tea(GT)on prevention of hypertension of rats induced by high-salt diet,as well as their potential regulatory and mechanism.Our results showed that GT and Se-GT supplementations significantly prevented the increase of blood pressure(BP),activated the phosphoinosmde-3-kinase/protein kinase B(PI3K/Akt)signaling pathway,and regulated the gene expression related to BP,as well as improved the tissue damage like heart,liver,and kidneys.Besides,the key parameters associated with oxidative stress,inflammation and endothelial dysfunction were also altered by GT and Se-GT treatments.Importantly,GT or Se-GT administration adjusted the diversity and composition of the intestinal flora.Moreover,GT and Se-GT supplementations increased the abundance of beneficial bacteria and reduced the abundance of harmful or conditional pathogenic bacteria.More specifically,GT intake specifically and significantly enriched the relative abundance of Paraprevotella and Bacteroides,whereas Se-GT was characterized by specific and significant enrichment for Allobaculum and Bifidobacterium.Our results proved that dietary supplement of GT and Se-GT remarkably improved the vascular functions and effectively prevented tissue damage by regulation of intestinal flora,and thus preventing hypertension induced by high-salt diet.展开更多
Aging decreases muscle mass,strength,and functional capacity.High-salt stress seems to promote muscle aging and decrease lifespan.However,exercise delays muscle aging and increases longevity,and it may protect muscle ...Aging decreases muscle mass,strength,and functional capacity.High-salt stress seems to promote muscle aging and decrease lifespan.However,exercise delays muscle aging and increases longevity,and it may protect muscle from rapid aging induced by high-salt intake(HSI),but the molecular mechanisms are poorly understood.In this study,the flies were fed a high-salt diet and trained to exercise.Muscle CG2196(salt)gene and dSir2 gene were over-expressed by building mef2-gal4/UAS system.The results showed that both physical exercise and muscle dSir2 gene overexpression prevented HSI-induced and muscle salt overexpression-induced accelerated age-related decline of climbing index,climbing endurance,muscle NAD^(+)level,SOD activity level,dSir2 expression,and dFOXO expression,and they also prevented HSI-induced and muscle salt overexpression-induced accelerated age-related increase in muscle ROS level,MDA level,and salt gene expression.Physical exercise improved lifespan decrease induced by HSI and muscle salt overexpression.Therefore,current results indicated that high-salt stress accelerated muscle aging by decreasing muscular NAD^(+)/dSir2/dFOXO pathway activity and increasing oxidative stress.Physical exercise protected muscle from accelerated aging induced by high-salt stress through activating muscle NAD^(+)/dSir2/dFOXO pathway and enhancing muscle oxidation resistance.The combination of exercise and muscle dSir2 overexpression had the best protective effect on muscle aging and lifespan in flies.展开更多
Industrial wastewater from modern industrial production often contains excessive organic hazardous substances or excessive salts, acids and bases, etc. Traditional methods cannot play an effective role in the treatmen...Industrial wastewater from modern industrial production often contains excessive organic hazardous substances or excessive salts, acids and bases, etc. Traditional methods cannot play an effective role in the treatment of such wastewater. Moreover, since such wastewater is also not suitable for the growth of microorganisms, the way of wastewater treatment by microorganisms is also greatly limited. For this kind of industrial waste water, apart from the degradation of organic matters, the separation of inorganic salts and waste water is also required to meet the sewage discharge standard. Based on this, the article focuses on the coal chemical high salt wastewater electro-catalytic oxidation pilot study.展开更多
Sufficient treatment of industrial organic wastewater with high salt and large amounts of suspended particulate matter remains a challenge worldwide.In this work,a novel coagulation-flotation combined process was deve...Sufficient treatment of industrial organic wastewater with high salt and large amounts of suspended particulate matter remains a challenge worldwide.In this work,a novel coagulation-flotation combined process was developed to treat the suspended particles as well as significantly reduce organic pollutants content in the actual high-salt organic wastewater.Four typical inorganic and organic flocculants(poly aluminum chloride(PAC),poly ferric sulfate(PFS),polyacrylamide(PAM),and modified cationic starch(CS))were selected for compounding to obtain an optimized flocculation system for high-salt wastewater.The results showed that the PAC-PAM with a 10:1 ratio in mass exhibited the best coagulation behaviors with the removal efficiency of turbidity and chemical oxygen demand(COD)being 95.33%and 9.21%,respectively,under the optimal operation conditions,and the sedimentation process of coagulant conformed to the quasi-second-order kinetics.The PAC-PAM flocs exhibited stronger netting,sweeping,and adsorption bridging capabilities,which were conducive to removing suspended particles.When the flotation was conducted after coagulation,the COD decreased significantly by 20.82%.In addition,this combined process could reduce the treatment time by 50%compared to the process with only coagulation treatment.During the flotation process,floc particles companies with hydrophobic polycyclic aromatic hydrocarbons could collide and adhere to microbubbles and be floated to the surface,resulting in an effective reduction of COD.This work could provide a novel strategy and step forward to design and optimize the pretreatment process engineering for organic high-salt wastewater.展开更多
Phi29 DNA polymerase(Phi29 Pol)has emerged as a powerful tool in the third-generation sequencing technology such as DNA nanoball-based sequencing.However,natural Phi29 Pol with low amplification activity under high-sa...Phi29 DNA polymerase(Phi29 Pol)has emerged as a powerful tool in the third-generation sequencing technology such as DNA nanoball-based sequencing.However,natural Phi29 Pol with low amplification activity under high-salt conditions needs to be engineered to meet specific sequencing demands,which are usually achieved through a time-consuming and iterative trial-and-error process.Herein,we develop a high-throughput screening methodology for efficiently detecting Phi29 Pol mutants with high rolling-circle amplification(RCA)efficiency under high-salt conditions.The method uses a nucleic acid gel stain sensitive to oligonucleotides to achieve the input conversion from enzymatic amplification efficiency to fluorescence intensity in micron-sized droplets.We further demonstrate the potential of this methodology in the first high-throughput droplet sorting of Phi29 Pol.The RCA efficiency of sorted mutant S6 is 1.39-fold that of initial enzyme M2 in 300 mM KCl.Overall,this study provides a cost-effective and rapid solution for improving the performance of Phi29 Pol under high-salt conditions.展开更多
基金supported by the National Natural Science Foundation of China(82300872 and 82170787)the Anhui Provincial Natural Science Foundation(2408085Y038)+3 种基金the Supporting Projects for Innovative Leading Talents(T000529)the Distinguished Young Scholar of Anhui Colleges(2021-108-10)the Science Foundation for Outstanding Young Scholar of Anhui Colleges(2022AH020073)the Sanming Project of Medicine in Shenzhen Nanshan(SZSM20210300).
文摘Background:Chronic prostatitis/chronic pelvic pain syndrome(CP/CPPS)is a frequently encountered disorder characterized by voiding symptoms and pelvic or perineal pain.Proinflammatory T helper 17(Th17)cells are essential for triggering the development of CP/CPPS.High-salt diet(HSD)consumption has been found to cause an accumulation of sodium chloride in peripheral organs,inducing autoimmune responses via the Th17 cell axis.It is currently unknown whether HSD affects the etiology and course of CP/CPPS.Methods:Patients diagnosed with CP/CPPS were evaluated with the National Institutes of Health Chronic Prostatitis Symptom Index scoring system,and the correlation between the symptoms of CP/CPPS with HSD was analyzed.The experimental autoimmune prostatitis(EAP)mouse was established and the mice were fed either a normal-salt diet(NSD)or HSD for 6 weeks to investigate the impact of HSD on CP/CPPS.Then,16S ribosomal RNA sequencing and untargeted metabolomics were introduced to detect the differences in the gut microflora composition and metabolite profiles between NSD-fed and HSD-fed mice,followed by fecal microbiota transplantation,5-hydroxyindole acetic acid(5-HIAA)supplementation,aryl hydrocarbon receptor(AHR)inhibition,and in vitro Th17 differentiation experiments,which were performed to explore the mechanisms underlying HSD-aggravated CP/CPPS.Finally,chromatin immunoprecipitation assay and quantitative polymerase chain reaction were conducted to validate whether AHR can serve as a transcription factor by interacting with the serum and glucocorticoid-regulated kinase 1(Sgk1)promoter in CD4^(+)T cells.Results:Increased salt consumption had a positive correlation with symptom scores of CP/CPPS patients,which was validated by feeding EAP mice with HSD,and HSD worsened the prostate inflammation and tactile allodynia in EAP mice through promoting the differentiation of CD4^(+)T cells to Th17 cells.HSD exacerbated EAP by significantly reducing the relative abundance of beneficial gut microflora,such as Lactobacillaceae,and gut microbiota metabolite 5-HIAA,which is related to tryptophan metabolism.The prostate inflammation,tactile allodynia,and proportion of Th17 cells in mice that received fecal suspensions from the EAP^(+)HSD group were significantly more severe or higher than those in mice that received fecal suspensions from the EAP^(+)NSD group.However,5-HIAA supplementation ameliorated the symptoms of EAP caused by HSD through inhibiting the differentiation of CD4^(+)T cells to Th17 cells,while AHR inhibition abrogated the protective effects of 5-HIAA supplementation on EAP mice fed a HSD through promoting the differentiation of CD4^(+)T cells to Th17 cells.Mechanistically,it has been revealed that the SGK1/forkhead box protein O1(FOXO1)pathway was significantly activated during cytokine-induced Th17 cell differentiation,and AHR has been shown to inhibit SGK1 transcription by interacting with the Sgk1 promoter in CD4^(+)T cells to inhibit FOXO1 phosphorylation,consequently restoring the equilibrium of Th17 cell differentiation.Conclusions:Our findings indicated that high salt intake represented a risk factor for the development of CP/CPPS as it promoted the differentiation of CD4^(+)T cells to Th17 cells through the 5-HIAA/AHR/SGK1/FOXO1 axis,which might be a potential therapeutic target for CP/CPPS.
基金supported by the National Natural Science Foundation of China(No.82305092,No.82274412 and No.82274411)the National Natural Science Foundation of Hunan(No.2023JJ30453)+2 种基金the National Natural Science Foundation of Changsha(No.kq2208185)the Hunan Youth Science and Technology Innovation Talent Project(No.2022RC1021)the Foundation of Hunan University of Chinese Medicine(No.Z2023XJYQ03).
文摘Numerous studies have established a link between hypertension(HTN)and a high-salt diet(HSD).However,the precise mechanisms are still being investigated,with increasing evidence suggesting that HSD can alter the gut microbiome balance,influence the production of microbiome metabolites and potentially lead to high blood pressure,presenting a promising avenue for targeting specific microbiota in HTN treatment.Short-chain fatty acids(SCFAs)are produced by gut bacteria and are associated with blood pressure regulation.Thus,the relationships among HSD,SCFAs,and blood pressure could provide valuable information on the pathophysiology of HTN.This study aimed to assess the impact of HSD on HTN by investigating its influence on the gut microbiota composition and SCFA levels in a rat model of HTN.
基金supported by the National Natural Science Foundation of China (No.22176068)the Research and Innovation Initiatives of WHPU (No.2022J03),the Hubei Provincial Natural Science Foundation (No.2023AFB938)the Scientific research project of Education Department of Hubei Province (No.D20221610).
文摘Nitrate(NO3-)is a widespread pollutant in high-salt wastewater and causes serious harm to human health.Although electrochemical removal of nitrate has been demonstrated to be a promising treatment method,the development of low-cost electro-catalysts is still challenging.In this work,a phosphate modified iron(P-Fe)cathode was prepared for electrochemical removal of nitrate in high-salt wastewater.The phosphate modification greatly improved the activity of iron,and the removal rate of nitrate on P-Fe was three times higher than that on Fe electrode.Further experiments and density functional theory(DFT)calculations demonstrated that the modification of phosphoric acid improved the stability and the activity of the zero-valent iron electrode effectively for NO_(3)^(-) removal.The nitrate was firstly electrochemically reduced to ammonium,and then reacted with the anodic generated hypochlorite to N_(2).In this study,a strategy was developed to improve the activity and stability of metal electrode for NO_(3)^(-)removal,which opened up a new field for the efficient reduction of NO3-removal by metal electrode materials.
基金financial sponsored by the National Key R&D Program of China(No.2018YFC1604405)Fund of Shanghai Engineering Research Center of Plant Germplasm Resources(No.17DZ2252700)Research on the health function of tea and deep-processed products in preventing metabolic diseases(No.C-6105-20-074)。
文摘High-salt diet is well recognized as a risk factor for hypertension,and dietary intervention plays a critical role in the prevention of hypertension.The current study investigated the effects of selenium-enriched green tea(Se-GT)and ordinary green tea(GT)on prevention of hypertension of rats induced by high-salt diet,as well as their potential regulatory and mechanism.Our results showed that GT and Se-GT supplementations significantly prevented the increase of blood pressure(BP),activated the phosphoinosmde-3-kinase/protein kinase B(PI3K/Akt)signaling pathway,and regulated the gene expression related to BP,as well as improved the tissue damage like heart,liver,and kidneys.Besides,the key parameters associated with oxidative stress,inflammation and endothelial dysfunction were also altered by GT and Se-GT treatments.Importantly,GT or Se-GT administration adjusted the diversity and composition of the intestinal flora.Moreover,GT and Se-GT supplementations increased the abundance of beneficial bacteria and reduced the abundance of harmful or conditional pathogenic bacteria.More specifically,GT intake specifically and significantly enriched the relative abundance of Paraprevotella and Bacteroides,whereas Se-GT was characterized by specific and significant enrichment for Allobaculum and Bifidobacterium.Our results proved that dietary supplement of GT and Se-GT remarkably improved the vascular functions and effectively prevented tissue damage by regulation of intestinal flora,and thus preventing hypertension induced by high-salt diet.
基金This work is supported by the National Natural Science Foundation of China(NSFC)(32000832)Province Natural Science Foundation of Shandong(ZR2020QC096).
文摘Aging decreases muscle mass,strength,and functional capacity.High-salt stress seems to promote muscle aging and decrease lifespan.However,exercise delays muscle aging and increases longevity,and it may protect muscle from rapid aging induced by high-salt intake(HSI),but the molecular mechanisms are poorly understood.In this study,the flies were fed a high-salt diet and trained to exercise.Muscle CG2196(salt)gene and dSir2 gene were over-expressed by building mef2-gal4/UAS system.The results showed that both physical exercise and muscle dSir2 gene overexpression prevented HSI-induced and muscle salt overexpression-induced accelerated age-related decline of climbing index,climbing endurance,muscle NAD^(+)level,SOD activity level,dSir2 expression,and dFOXO expression,and they also prevented HSI-induced and muscle salt overexpression-induced accelerated age-related increase in muscle ROS level,MDA level,and salt gene expression.Physical exercise improved lifespan decrease induced by HSI and muscle salt overexpression.Therefore,current results indicated that high-salt stress accelerated muscle aging by decreasing muscular NAD^(+)/dSir2/dFOXO pathway activity and increasing oxidative stress.Physical exercise protected muscle from accelerated aging induced by high-salt stress through activating muscle NAD^(+)/dSir2/dFOXO pathway and enhancing muscle oxidation resistance.The combination of exercise and muscle dSir2 overexpression had the best protective effect on muscle aging and lifespan in flies.
文摘Industrial wastewater from modern industrial production often contains excessive organic hazardous substances or excessive salts, acids and bases, etc. Traditional methods cannot play an effective role in the treatment of such wastewater. Moreover, since such wastewater is also not suitable for the growth of microorganisms, the way of wastewater treatment by microorganisms is also greatly limited. For this kind of industrial waste water, apart from the degradation of organic matters, the separation of inorganic salts and waste water is also required to meet the sewage discharge standard. Based on this, the article focuses on the coal chemical high salt wastewater electro-catalytic oxidation pilot study.
基金financially supported by the National Nature Science Foundation of China(No.22278251)the National Key Research and Development Program of China(No.2022YFC3901304)the Key Research and Development Plan in Shanxi(No.202102090301028).
文摘Sufficient treatment of industrial organic wastewater with high salt and large amounts of suspended particulate matter remains a challenge worldwide.In this work,a novel coagulation-flotation combined process was developed to treat the suspended particles as well as significantly reduce organic pollutants content in the actual high-salt organic wastewater.Four typical inorganic and organic flocculants(poly aluminum chloride(PAC),poly ferric sulfate(PFS),polyacrylamide(PAM),and modified cationic starch(CS))were selected for compounding to obtain an optimized flocculation system for high-salt wastewater.The results showed that the PAC-PAM with a 10:1 ratio in mass exhibited the best coagulation behaviors with the removal efficiency of turbidity and chemical oxygen demand(COD)being 95.33%and 9.21%,respectively,under the optimal operation conditions,and the sedimentation process of coagulant conformed to the quasi-second-order kinetics.The PAC-PAM flocs exhibited stronger netting,sweeping,and adsorption bridging capabilities,which were conducive to removing suspended particles.When the flotation was conducted after coagulation,the COD decreased significantly by 20.82%.In addition,this combined process could reduce the treatment time by 50%compared to the process with only coagulation treatment.During the flotation process,floc particles companies with hydrophobic polycyclic aromatic hydrocarbons could collide and adhere to microbubbles and be floated to the surface,resulting in an effective reduction of COD.This work could provide a novel strategy and step forward to design and optimize the pretreatment process engineering for organic high-salt wastewater.
基金supported by the National Key Research and Development Program of China(2022YFC3401303)Shandong Province Key R&D Program(Major Science and Technology Innovation Project)Project(2023CXGC010714)+1 种基金Natural Science Foundation of Jiangsu Province(BK20240202)Key Technological Project of Jiangxi Province(20244AFH82001)。
文摘Phi29 DNA polymerase(Phi29 Pol)has emerged as a powerful tool in the third-generation sequencing technology such as DNA nanoball-based sequencing.However,natural Phi29 Pol with low amplification activity under high-salt conditions needs to be engineered to meet specific sequencing demands,which are usually achieved through a time-consuming and iterative trial-and-error process.Herein,we develop a high-throughput screening methodology for efficiently detecting Phi29 Pol mutants with high rolling-circle amplification(RCA)efficiency under high-salt conditions.The method uses a nucleic acid gel stain sensitive to oligonucleotides to achieve the input conversion from enzymatic amplification efficiency to fluorescence intensity in micron-sized droplets.We further demonstrate the potential of this methodology in the first high-throughput droplet sorting of Phi29 Pol.The RCA efficiency of sorted mutant S6 is 1.39-fold that of initial enzyme M2 in 300 mM KCl.Overall,this study provides a cost-effective and rapid solution for improving the performance of Phi29 Pol under high-salt conditions.
