Cyanidin-3-glucoside(C3G)is the most common anthocyanin in dark grains and berries and is a food functional factor to improve visual health.However,the mechanisms of C3G on blue light-induced retinal pigment epithelia...Cyanidin-3-glucoside(C3G)is the most common anthocyanin in dark grains and berries and is a food functional factor to improve visual health.However,the mechanisms of C3G on blue light-induced retinal pigment epithelial(RPE)cell photooxidative damage needs further exploration.We investigated the effects of C3G on blue light-irradiated A2E-containing RPE cells and explored whether sphingolipid,mitogen-activated protein kinase(MAPK),and mitochondria-mediated pathways are involved in this mechanism.Blue light irradiation led to mitochondria and lysosome damage in RPE cells,whereas C3G preserved mitochondrial morphology and function and maintained the lysosomal integrity.C3G suppressed the phosphorylation of JNK and p38 MAPK and mitochondria-mediated pathways to inhibit RPE cell apoptosis.Lipidomics data showed that C3G protected RPE cells against blue light-induced lipid peroxidation and apoptosis by maintaining sphingolipids balance.C3G significantly inhibited ceramide(Cer d18:0/15:0,Cer d18:0/16:0 and Cer d18:0/18:0)accumulation and elevated galactosylceramide(GalCer d18:1/15:0 and GalCer d18:1/16:0)levels in the irradiated A2E-containing RPE cells.Furthermore,C3G attenuated cell membrane damage by increasing phosphatidylcholine and phosphatidylserine levels.C3G inhibited apoptosis and preserved the structure of mitochondria and lysosome by regulating sphingolipid signaling and suppression of MAPK activation in RPE cells.Thus,dietary supplementation of C3G prevents retinal photooxidative damage.展开更多
结直肠癌是世界高发和高致死率的恶性肿瘤。靶向新抗原的免疫治疗已被证实可以诱导癌症患者肿瘤持续消退,但这些特异性新抗原,仅适用于个体精准治疗。随着大量的高频肿瘤基因突变被发现,这些与突变相关的高频新抗原可覆盖更多人群,具有...结直肠癌是世界高发和高致死率的恶性肿瘤。靶向新抗原的免疫治疗已被证实可以诱导癌症患者肿瘤持续消退,但这些特异性新抗原,仅适用于个体精准治疗。随着大量的高频肿瘤基因突变被发现,这些与突变相关的高频新抗原可覆盖更多人群,具有较强的临床意义。然而目前结直肠癌中是否也存在高频新抗原仍不清楚。本研究利用来源于321个结直肠癌患者的体细胞突变数据库,联合1种标准过滤和7种预测算法,筛选并获得了25个基于中国人高频分型HLA-A^*1101限制性的高频新抗原,它们均具有高亲和力(IC50<50 nmol/L)和高呈递分值(>0.90);其中,除了阳性对照多肽KRAS_G12V8-16外,11个高频新抗原能够在体外诱导细胞毒性T淋巴细胞(cytotoxic T lymphocyte,CTL)分泌γ干扰素(interferon gamma,IFN-γ),证实具有免疫原性。选取免疫原性最强的新抗原C1orf170_S418G413-421及阳性对照多肽KRAS_G12V8-16体外刺激T细胞,利用流式细胞分选及单细胞转录组测序技术,获得其特异性CTL的免疫组库信息,所构建的TCR-T(T-cell receptor engineered T cell)能够识别新抗原并分泌细胞因子。以上结果表明,本研究开发了一种利用体细胞数据库预测并体外筛选验证具有免疫原性高频新抗原的方法,为结直肠癌及其他癌种的多肽、DC(dendritic cells)疫苗、TCR-like抗体、TCR-T等免疫治疗提供了重要的多肽靶点和TCR信息,具有实际的临床应用价值。展开更多
Background:Fructose may induce non-alcoholic fatty acids(NAFLD)due to the gut-liver axis interactions.The mechanism of fructose impairing colon barrier is unrevealed.Methods:Normal and dextran sulfate sodium(DSS)-indu...Background:Fructose may induce non-alcoholic fatty acids(NAFLD)due to the gut-liver axis interactions.The mechanism of fructose impairing colon barrier is unrevealed.Methods:Normal and dextran sulfate sodium(DSS)-induced Sprague-Dawley rats fed by 35%fructose diets were used to evaluate colon barrier functions.Microbiome and metabolome were applied to screen potential biomarker bacteria and metabolites induced by fructose.HT-29 cells were applied to validate metabolite biomarker indoleacrylic acid(IAA)and indole-3-carboxaldehyde(I3A)function in colon barrier which impaired by fructose.Results:Fructose induced colon barrier dysfunction,aggravated colon impairment in DSS-induced rats.With fructose intake,the colon length shortened,goblet numbers declined,inflammation infiltration induced,inflammatory cytokines increased,and apoptosis signals upregulated in colon tissue.Moreover,fructose induced dysbiosis of microbiota and their metabolites.Adlercreutzia and Holdemania were screened out as potential bacteria biomarkers,IAA and I3A as tryptophan metabolites were selected as metabolite biomarkers inhibited by fructose.IAA and I3A treatment alleviated the impairment induced by fructose by increasing trans epithelial electric resistance value,tight junction proteins,and Aryl hydrocarbon receptor(Ah R)activity in HT-29 cell.Conclusion:Fructose stimulated inflammation,apoptosis,gut bacteria alteration,and induced the reduction of IAA and I3A.Since fructose inhibited production of IAA and I3A,Ah R remained inactivated and consequently induced colon barrier dysfunction.展开更多
A potential mechanism to enhance utilization of sparingly soluble forms of phosphorus (P) is the root secretion of malate, which is mainly mediated by the ALMT gene family in plants. In this study, a total of 34 GmA...A potential mechanism to enhance utilization of sparingly soluble forms of phosphorus (P) is the root secretion of malate, which is mainly mediated by the ALMT gene family in plants. In this study, a total of 34 GmALMT genes were identified in the soybean genome. Expression patterns diverged considerably among GmALMTs in response to phosphate (Pi) starvation in leaves, roots and flowers, with expression altered by P availability in 26 of the :34 GmALMTs. One root-specific GmALMT whose expression was significantly enhanced by Pi-starvation, GmALMTS, was studied in more detail to determine its possible role in soybean P nutrition. Analysis of GmALMT5 tissue expression patterns, subcellular localization, and malate exudation from transgenic soybean hairy rootsoverexpressing GmALMT5, demonstrated that GmALMT5 is a plasma membrane protein that mediates malate efflux from roots. Furthermore, both growth and P content of transgenic Arabidopsis overexpressing GmALMT5 were significantly increased when sparingly soluble Ca-P was used as the external P source. Taken together, these results indicate that members of the soybean GmALMT gene family exhibit diverse responses to Pi starvation. One member of this family, GmALMT5, might contribute to soybean P efficiency by enhancing utilization of sparingly soluble P sources under P limited conditions.展开更多
Background and Aims:Nonbiological artificial liver(NBAL)is frequently used as a first-line treatment for hepatitis B virus-associated acute-on-chronic liver failure(HBV-ACLF).This study aimed to compare the therapeuti...Background and Aims:Nonbiological artificial liver(NBAL)is frequently used as a first-line treatment for hepatitis B virus-associated acute-on-chronic liver failure(HBV-ACLF).This study aimed to compare the therapeutic efficacy and cost-effectiveness ratio(CER)of comprehensive medical treatment,plasma exchange(PE),and double plasma molecular adsorption system(DPMAS)plus half-dose PE(DPMAS+PE)in patients with HBV-ACLF.Methods:A total of 186 patients with HBV-ACLF randomly received comprehensive medical treatment,PE,or DPMAS+PE and were prospectively evaluated.Patients were divided into four subgroups based on the pretreatment prothrombin activity(PTA):Group I(PTA>40%),group II(PTA 30–40%),group III(PTA 20–30%),and group IV(PTA<20%).The main outcome measures were 28 day effectiveness;90 day liver transplantation-free survival;change of biochemical parameters;and CER.Results:DPMAS+PE treatment was associated with significantly higher 28 day effectiveness and 90 day liver transplantation-free survival compared with PE treatment in patients with group I liver failure.Clearance of serum total bilirubin(TBIL),AST,and creatinine(Cr)were significantly higher in the DPMAS+PE group than in the PE group.For subjects with group I liver failure,DPMAS+PE treatment had advantages of lower CER values and better cost-effectiveness.Conclusions:Compared with comprehensive medical treatment and PE alone,DPMAS with halfdose sequential PE treatment more effectively improved TBIL,AST,and Cr in HBV-ACLF patients,improved 28 day effectiveness and 90 day survival rates in patients with group I liver failure,and was more cost effective.DPMAS+PE is a viable NBAL approach for treatment of HBV-ACLF.展开更多
基金funded by the National Natural Science Foundation of China(31901698)Young Elite Scientists Sponsorship Program by the China Association for Science and Technology(2019QNRC001)。
文摘Cyanidin-3-glucoside(C3G)is the most common anthocyanin in dark grains and berries and is a food functional factor to improve visual health.However,the mechanisms of C3G on blue light-induced retinal pigment epithelial(RPE)cell photooxidative damage needs further exploration.We investigated the effects of C3G on blue light-irradiated A2E-containing RPE cells and explored whether sphingolipid,mitogen-activated protein kinase(MAPK),and mitochondria-mediated pathways are involved in this mechanism.Blue light irradiation led to mitochondria and lysosome damage in RPE cells,whereas C3G preserved mitochondrial morphology and function and maintained the lysosomal integrity.C3G suppressed the phosphorylation of JNK and p38 MAPK and mitochondria-mediated pathways to inhibit RPE cell apoptosis.Lipidomics data showed that C3G protected RPE cells against blue light-induced lipid peroxidation and apoptosis by maintaining sphingolipids balance.C3G significantly inhibited ceramide(Cer d18:0/15:0,Cer d18:0/16:0 and Cer d18:0/18:0)accumulation and elevated galactosylceramide(GalCer d18:1/15:0 and GalCer d18:1/16:0)levels in the irradiated A2E-containing RPE cells.Furthermore,C3G attenuated cell membrane damage by increasing phosphatidylcholine and phosphatidylserine levels.C3G inhibited apoptosis and preserved the structure of mitochondria and lysosome by regulating sphingolipid signaling and suppression of MAPK activation in RPE cells.Thus,dietary supplementation of C3G prevents retinal photooxidative damage.
文摘结直肠癌是世界高发和高致死率的恶性肿瘤。靶向新抗原的免疫治疗已被证实可以诱导癌症患者肿瘤持续消退,但这些特异性新抗原,仅适用于个体精准治疗。随着大量的高频肿瘤基因突变被发现,这些与突变相关的高频新抗原可覆盖更多人群,具有较强的临床意义。然而目前结直肠癌中是否也存在高频新抗原仍不清楚。本研究利用来源于321个结直肠癌患者的体细胞突变数据库,联合1种标准过滤和7种预测算法,筛选并获得了25个基于中国人高频分型HLA-A^*1101限制性的高频新抗原,它们均具有高亲和力(IC50<50 nmol/L)和高呈递分值(>0.90);其中,除了阳性对照多肽KRAS_G12V8-16外,11个高频新抗原能够在体外诱导细胞毒性T淋巴细胞(cytotoxic T lymphocyte,CTL)分泌γ干扰素(interferon gamma,IFN-γ),证实具有免疫原性。选取免疫原性最强的新抗原C1orf170_S418G413-421及阳性对照多肽KRAS_G12V8-16体外刺激T细胞,利用流式细胞分选及单细胞转录组测序技术,获得其特异性CTL的免疫组库信息,所构建的TCR-T(T-cell receptor engineered T cell)能够识别新抗原并分泌细胞因子。以上结果表明,本研究开发了一种利用体细胞数据库预测并体外筛选验证具有免疫原性高频新抗原的方法,为结直肠癌及其他癌种的多肽、DC(dendritic cells)疫苗、TCR-like抗体、TCR-T等免疫治疗提供了重要的多肽靶点和TCR信息,具有实际的临床应用价值。
基金supported by the Special Funds of Basic Research of Central Public Welfare Institute(JY2010 and ZX2410)。
文摘Background:Fructose may induce non-alcoholic fatty acids(NAFLD)due to the gut-liver axis interactions.The mechanism of fructose impairing colon barrier is unrevealed.Methods:Normal and dextran sulfate sodium(DSS)-induced Sprague-Dawley rats fed by 35%fructose diets were used to evaluate colon barrier functions.Microbiome and metabolome were applied to screen potential biomarker bacteria and metabolites induced by fructose.HT-29 cells were applied to validate metabolite biomarker indoleacrylic acid(IAA)and indole-3-carboxaldehyde(I3A)function in colon barrier which impaired by fructose.Results:Fructose induced colon barrier dysfunction,aggravated colon impairment in DSS-induced rats.With fructose intake,the colon length shortened,goblet numbers declined,inflammation infiltration induced,inflammatory cytokines increased,and apoptosis signals upregulated in colon tissue.Moreover,fructose induced dysbiosis of microbiota and their metabolites.Adlercreutzia and Holdemania were screened out as potential bacteria biomarkers,IAA and I3A as tryptophan metabolites were selected as metabolite biomarkers inhibited by fructose.IAA and I3A treatment alleviated the impairment induced by fructose by increasing trans epithelial electric resistance value,tight junction proteins,and Aryl hydrocarbon receptor(Ah R)activity in HT-29 cell.Conclusion:Fructose stimulated inflammation,apoptosis,gut bacteria alteration,and induced the reduction of IAA and I3A.Since fructose inhibited production of IAA and I3A,Ah R remained inactivated and consequently induced colon barrier dysfunction.
基金supported by grants from the National Natural Science Foundation of China (31672220, 31422046 and U1301212) the National Key Research and Development Program (2016YFD0100700)+2 种基金the Guangdong Natural Science Funds for Distinguished Young Scholars (2015A030306034)the Guangdong High-level Personnel of Special Support Program (2015TQ01N078 and 2015TX01N042) the Research Team Project of the Natural Science Foundation of Guangdong Province (2016A030312009). D D F
文摘A potential mechanism to enhance utilization of sparingly soluble forms of phosphorus (P) is the root secretion of malate, which is mainly mediated by the ALMT gene family in plants. In this study, a total of 34 GmALMT genes were identified in the soybean genome. Expression patterns diverged considerably among GmALMTs in response to phosphate (Pi) starvation in leaves, roots and flowers, with expression altered by P availability in 26 of the :34 GmALMTs. One root-specific GmALMT whose expression was significantly enhanced by Pi-starvation, GmALMTS, was studied in more detail to determine its possible role in soybean P nutrition. Analysis of GmALMT5 tissue expression patterns, subcellular localization, and malate exudation from transgenic soybean hairy rootsoverexpressing GmALMT5, demonstrated that GmALMT5 is a plasma membrane protein that mediates malate efflux from roots. Furthermore, both growth and P content of transgenic Arabidopsis overexpressing GmALMT5 were significantly increased when sparingly soluble Ca-P was used as the external P source. Taken together, these results indicate that members of the soybean GmALMT gene family exhibit diverse responses to Pi starvation. One member of this family, GmALMT5, might contribute to soybean P efficiency by enhancing utilization of sparingly soluble P sources under P limited conditions.
基金supported by the Natural Science Foundation of China (No.82170640,No.81974080).
文摘Background and Aims:Nonbiological artificial liver(NBAL)is frequently used as a first-line treatment for hepatitis B virus-associated acute-on-chronic liver failure(HBV-ACLF).This study aimed to compare the therapeutic efficacy and cost-effectiveness ratio(CER)of comprehensive medical treatment,plasma exchange(PE),and double plasma molecular adsorption system(DPMAS)plus half-dose PE(DPMAS+PE)in patients with HBV-ACLF.Methods:A total of 186 patients with HBV-ACLF randomly received comprehensive medical treatment,PE,or DPMAS+PE and were prospectively evaluated.Patients were divided into four subgroups based on the pretreatment prothrombin activity(PTA):Group I(PTA>40%),group II(PTA 30–40%),group III(PTA 20–30%),and group IV(PTA<20%).The main outcome measures were 28 day effectiveness;90 day liver transplantation-free survival;change of biochemical parameters;and CER.Results:DPMAS+PE treatment was associated with significantly higher 28 day effectiveness and 90 day liver transplantation-free survival compared with PE treatment in patients with group I liver failure.Clearance of serum total bilirubin(TBIL),AST,and creatinine(Cr)were significantly higher in the DPMAS+PE group than in the PE group.For subjects with group I liver failure,DPMAS+PE treatment had advantages of lower CER values and better cost-effectiveness.Conclusions:Compared with comprehensive medical treatment and PE alone,DPMAS with halfdose sequential PE treatment more effectively improved TBIL,AST,and Cr in HBV-ACLF patients,improved 28 day effectiveness and 90 day survival rates in patients with group I liver failure,and was more cost effective.DPMAS+PE is a viable NBAL approach for treatment of HBV-ACLF.
