The functional and structural integrity of the blood-brain barrier is crucial in maintaining homeostasis in the brain microenvironment;however,the molecular mechanisms underlying the formation and function of the bloo...The functional and structural integrity of the blood-brain barrier is crucial in maintaining homeostasis in the brain microenvironment;however,the molecular mechanisms underlying the formation and function of the blood-brain barrier remain poorly understood.The major facilitator superfamily domain containing 2A has been identified as a key regulator of blood-brain barrier function.It plays a critical role in promoting and maintaining the formation and functional stability of the blood-brain barrier,in addition to the transport of lipids,such as docosahexaenoic acid,across the blood-brain barrier.Furthermore,an increasing number of studies have suggested that major facilitator superfamily domain containing 2A is involved in the molecular mechanisms of blood-brain barrier dysfunction in a variety of neurological diseases;however,little is known regarding the mechanisms by which major facilitator superfamily domain containing 2A affects the blood-brain barrier.This paper provides a comprehensive and systematic review of the close relationship between major facilitator superfamily domain containing 2A proteins and the blood-brain barrier,including their basic structures and functions,cross-linking between major facilitator superfamily domain containing 2A and the blood-brain barrier,and the in-depth studies on lipid transport and the regulation of blood-brain barrier permeability.This comprehensive systematic review contributes to an in-depth understanding of the important role of major facilitator superfamily domain containing 2A proteins in maintaining the structure and function of the blood-brain barrier and the research progress to date.This will not only help to elucidate the pathogenesis of neurological diseases,improve the accuracy of laboratory diagnosis,and optimize clinical treatment strategies,but it may also play an important role in prognostic monitoring.In addition,the effects of major facilitator superfamily domain containing 2A on blood-brain barrier leakage in various diseases and the research progress on cross-blood-brain barrier drug delivery are summarized.This review may contribute to the development of new approaches for the treatment of neurological diseases.展开更多
BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(X...BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(XIST)expression has been reported to be elevated in the serum of DN patients.AIM To evaluate the mechanism of lncRNA XIST in renal tubular epithelial cell(RTEC)pyroptosis in DN.METHODS A DN rat model was established through streptozotocin injection,and XIST was knocked down by tail vein injection of the lentivirus LV sh-XIST.Renal metabolic and biochemical indices were detected,and pathological changes in the renal tissue were assessed.The expression of indicators related to inflammation and pyroptosis was also detected.High glucose(HG)was used to treat HK2 cells,and cell viability and lactate dehydrogenase(LDH)activity were detected after silencing XIST.The subcellular localization and downstream mechanism of XIST were investigated.Finally,a rescue experiment was carried out to verify that XIST regulates NLR family pyrin domain containing 3(NLRP3)/caspase-1-mediated RTEC pyroptosis through the microRNA-15-5p(miR-15b-5p)/Toll-like receptor 4(TLR4)axis.RESULTS XIST was highly expressed in the DN models.XIST silencing improved renal metabolism and biochemical indices and mitigated renal injury.The expression of inflammation and pyroptosis indicators was significantly increased in DN rats and HG-treated HK2 cells;cell viability was decreased and LDH activity was increased after HGtreatment. Silencing XIST inhibited RTEC pyroptosis by inhibiting NLRP3/caspase-1. Mechanistically,XIST sponged miR-15b-5p to regulate TLR4. Silencing XIST inhibited TLR4 by promotingmiR-15b-5p. miR-15b-5p inhibition or TLR4 overexpression averted the inhibitory effect ofsilencing XIST on HG-induced RTEC pyroptosis.CONCLUSIONSilencing XIST inhibits TLR4 by upregulating miR-15b-5p and ultimately inhibits renal injury inDN by inhibiting NLRP3/caspase-1-mediated RTEC pyroptosis.展开更多
Two DNA fragments encoding PDZ domain (21-110 residues) and BAR domain ( 150-360 residues) from PICK1 (1-416 residues) were amplified by PCR and then introduced into vectors, pET-32M and pMAL-e2X respectively to...Two DNA fragments encoding PDZ domain (21-110 residues) and BAR domain ( 150-360 residues) from PICK1 (1-416 residues) were amplified by PCR and then introduced into vectors, pET-32M and pMAL-e2X respectively to generate recombinant plasmids, pE-pdz and pM-bar. Having been separately transferred into the hosts E. coli BL21 and E. coli JM109, these two strains can express fusion proteins: His-tagged PDZ(PDZ domain) and maltose binding protein-BAR( MBP-BAR domain) respectively, as confirmed by both SDS-PAGE and Wostem blotting. The interaction between these two domains is dose-dependence, as identified by a pull-down test. Moreover, it has been shown from the ELISA analysis that the actual amount of PDZ bound to MBP-BAR-amylose beads reaches ( 16 ± 0. 5)%, as calculated by the molar ratio of PDZ to MBP-BAR. In addition, the interaction between BAR(bait) and PDZ(prey) in vivo was also examined with a yeast two-hybrid system.展开更多
目的分析双硫死亡(disulfidptosis)相关基因人PDZ和LIM域蛋白1(PDZ and LIM domain protein 1,PDLIM1)m RNA在多种肿瘤中的表达及作用。方法通过仙桃学术网站分析PDLIM1 mRNA的表达情况。利用仙桃学术网站和Sangerbox 3.0数据分析平台探...目的分析双硫死亡(disulfidptosis)相关基因人PDZ和LIM域蛋白1(PDZ and LIM domain protein 1,PDLIM1)m RNA在多种肿瘤中的表达及作用。方法通过仙桃学术网站分析PDLIM1 mRNA的表达情况。利用仙桃学术网站和Sangerbox 3.0数据分析平台探究PDLIM1在33种肿瘤中的诊断和预后能力。利用TISIDB数据库分析PDLIM1与临床分级和分期的相关性。在Sangerbox 3.0数据分析平台和Kaplan-Meier Plotter数据库中分析PDLIM1与肿瘤免疫相关性。通过STRING数据库和Cytoscape构建蛋白质互作网络(protein-protein interaction networks,PPI)。利用Sangerbox 3.0数据分析平台进行富集分析。最后利用GSCA(Gene Set Cancer Analysis)网站分析获得PDLIM1 mRNA表达与药物的敏感性。结果PDLIM1 mRNA在33种肿瘤中表达量存在异质性。PDLIM1在胆管癌(CHOL)、多形性胶质母细胞瘤(GBM)、肾透明细胞癌(KIRC)、肺腺癌(LUAD)、卵巢癌(OV)、胰腺癌(PAAD)、黑色素瘤(SKCM)和睾丸生殖细胞肿瘤(TGCT)中具有良好的诊断能力。PDLIM1在胶质瘤(GBMLGG)、脑低级别胶质瘤(LGG)、混合肾癌(KIPAN)、多形性胶质细胞瘤(GBM)、间皮瘤(MESO)、葡萄膜黑色素瘤(UVM)和肾上腺皮质癌(ACC)中高表达预后差,而在肉瘤中低表达预后差。PDLIM1 mRNA表达与头颈鳞状细胞癌(HIVSC)、肾乳头状细胞癌(KIRP)、子宫内膜癌(UCEC)、子宫癌肉瘤(UCS)和葡萄膜黑色素瘤(UVM)的分级,以及与宫颈癌、头颈鳞状细胞癌、子宫内膜癌和脑低级别胶质瘤肿瘤的分期有关。PDLIM1与以前列腺癌为首的36种肿瘤的免疫浸润显著相关,且发现在PDLIM1 mRNA高表达的患者中经免疫治疗后的预后相对较好。PDLIM1在生物体内主要通过参与肌动蛋白细胞骨架、细胞黏附、肿瘤相关途径的调节来发挥作用,对以Isoliquiritigenin为首的多种药物敏感。结论PDLIM1与多种肿瘤的临床预后和免疫浸润等方面密切相关,有望成为一种肿瘤诊断和预后生物标志物或治疗靶点。展开更多
Mitochondrial dysfunction is a significant pathological alte ration that occurs in Parkinson's disease(PD),and the Thr61lle(T61I)mutation in coiled-coil helix coiled-coil helix domain containing 2(CHCHD2),a crucia...Mitochondrial dysfunction is a significant pathological alte ration that occurs in Parkinson's disease(PD),and the Thr61lle(T61I)mutation in coiled-coil helix coiled-coil helix domain containing 2(CHCHD2),a crucial mitochondrial protein,has been reported to cause Parkinson's disease.FIFO-ATPase participates in the synthesis of cellular adenosine triphosphate(ATP)and plays a central role in mitochondrial energy metabolism.However,the specific roles of wild-type(WT)CHCHD2 and T611-mutant CHCHD2 in regulating F1FO-ATPase activity in Parkinson's disease,as well as whether CHCHD2 or CHCHD2 T61I affects mitochondrial function through regulating F1FO-ATPase activity,remain unclea r.Therefore,in this study,we expressed WT CHCHD2 and T61l-mutant CHCHD2 in an MPP^(+)-induced SH-SY5Y cell model of PD.We found that CHCHD2 protected mitochondria from developing MPP^(+)-induced dysfunction.Under normal conditions,ove rexpression of WT CHCHD2 promoted F1FO-ATPase assembly,while T61I-mutant CHCHD2 appeared to have lost the ability to regulate F1FO-ATPase assembly.In addition,mass spectrometry and immunoprecipitation showed that there was an interaction between CHCHD2 and F1FO-ATPase.Three weeks after transfection with AAV-CHCHD2 T61I,we intraperitoneally injected 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine into mice to establish an animal model of chronic Parkinson's disease and found that exogenous expression of the mutant protein worsened the behavioral deficits and dopaminergic neurodegeneration seen in this model.These findings suggest that WT CHCHD2 can alleviate mitochondrial dysfunction in PD by maintaining F1F0-ATPase structure and function.展开更多
利用生物信息学数据库分析泛素样含PHD和环指结构域蛋白1(UHRF1)在恶性胸膜间皮瘤(MPM)中的表达水平及临床意义。基于TCGA数据库和GTEx数据库差异表达分析UHRF1 m RNA在MPM组织和正常肺组织中的表达水平;使用R软件分析UHRF1 mRNA表达量...利用生物信息学数据库分析泛素样含PHD和环指结构域蛋白1(UHRF1)在恶性胸膜间皮瘤(MPM)中的表达水平及临床意义。基于TCGA数据库和GTEx数据库差异表达分析UHRF1 m RNA在MPM组织和正常肺组织中的表达水平;使用R软件分析UHRF1 mRNA表达量与临床病理参数的相关性;构建Kaplan-Meier模型和单因素多因素COX回归模型分析UHRF1基因在MPM中的预后;利用TIMER2.0数据库分析UHRF1基因与免疫细胞浸润的关系;GSEA分析UHRF1基因发挥功能的主要富集通路。选取8例MPM组织及4例非MPM胸膜组织,通过RT-q PCR的方法验证UHRF1在MPM与非MPM胸膜组织的表达情况。数据库分析结果表明,与正常肺组织相比,UHRF1 m RNA在MPM组织中高表达;UHRF1高表达患者提示MPM患者预后不良;UHRF1基因表达量与CD4^(+)辅助型T细胞2、CD4^(+)效应记忆性T细胞、巨噬细胞等多种免疫细胞浸润水平具有显著的相关性(P<0.01),且显著影响MPM患者的预后。功能富集分析显示,UHRF1主要在DNA复制、蛋白酶体、同源重组等通路中起作用。在收集到的病例样本中,与非MPM胸膜组织相比,UHRF1 mRNA在MPM组织中的表达显著增高(P<0.001)。UHRF1在MPM组织中高表达,可能通过调节DNA甲基化和免疫细胞浸润来影响MPM患者预后,有望成为MPM治疗和预后评估的潜在靶点。展开更多
基金supported by the National Natural Science Foundation of China,No.82104412(to TD)Shaanxi Provincial Key R&D Program,No.2023-YBSF-165(to TD)+1 种基金the Natural Science Foundation of Shaanxi Department of Science and Technology,No.2018JM7022(to FM)Shaanxi Provincial Key Industry Chain Project,No.2021ZDLSF04-11(to PW)。
文摘The functional and structural integrity of the blood-brain barrier is crucial in maintaining homeostasis in the brain microenvironment;however,the molecular mechanisms underlying the formation and function of the blood-brain barrier remain poorly understood.The major facilitator superfamily domain containing 2A has been identified as a key regulator of blood-brain barrier function.It plays a critical role in promoting and maintaining the formation and functional stability of the blood-brain barrier,in addition to the transport of lipids,such as docosahexaenoic acid,across the blood-brain barrier.Furthermore,an increasing number of studies have suggested that major facilitator superfamily domain containing 2A is involved in the molecular mechanisms of blood-brain barrier dysfunction in a variety of neurological diseases;however,little is known regarding the mechanisms by which major facilitator superfamily domain containing 2A affects the blood-brain barrier.This paper provides a comprehensive and systematic review of the close relationship between major facilitator superfamily domain containing 2A proteins and the blood-brain barrier,including their basic structures and functions,cross-linking between major facilitator superfamily domain containing 2A and the blood-brain barrier,and the in-depth studies on lipid transport and the regulation of blood-brain barrier permeability.This comprehensive systematic review contributes to an in-depth understanding of the important role of major facilitator superfamily domain containing 2A proteins in maintaining the structure and function of the blood-brain barrier and the research progress to date.This will not only help to elucidate the pathogenesis of neurological diseases,improve the accuracy of laboratory diagnosis,and optimize clinical treatment strategies,but it may also play an important role in prognostic monitoring.In addition,the effects of major facilitator superfamily domain containing 2A on blood-brain barrier leakage in various diseases and the research progress on cross-blood-brain barrier drug delivery are summarized.This review may contribute to the development of new approaches for the treatment of neurological diseases.
基金Supported by Natural Science Foundation of Shenzhen University General Hospital (SUGH2020QD011)
文摘BACKGROUND NLRP3-mediated pyroptosis is recognized as an essential modulator of renal disease pathology.Long noncoding RNAs(lncRNAs)are active participators of diabetic nephropathy(DN).X inactive specific transcript(XIST)expression has been reported to be elevated in the serum of DN patients.AIM To evaluate the mechanism of lncRNA XIST in renal tubular epithelial cell(RTEC)pyroptosis in DN.METHODS A DN rat model was established through streptozotocin injection,and XIST was knocked down by tail vein injection of the lentivirus LV sh-XIST.Renal metabolic and biochemical indices were detected,and pathological changes in the renal tissue were assessed.The expression of indicators related to inflammation and pyroptosis was also detected.High glucose(HG)was used to treat HK2 cells,and cell viability and lactate dehydrogenase(LDH)activity were detected after silencing XIST.The subcellular localization and downstream mechanism of XIST were investigated.Finally,a rescue experiment was carried out to verify that XIST regulates NLR family pyrin domain containing 3(NLRP3)/caspase-1-mediated RTEC pyroptosis through the microRNA-15-5p(miR-15b-5p)/Toll-like receptor 4(TLR4)axis.RESULTS XIST was highly expressed in the DN models.XIST silencing improved renal metabolism and biochemical indices and mitigated renal injury.The expression of inflammation and pyroptosis indicators was significantly increased in DN rats and HG-treated HK2 cells;cell viability was decreased and LDH activity was increased after HGtreatment. Silencing XIST inhibited RTEC pyroptosis by inhibiting NLRP3/caspase-1. Mechanistically,XIST sponged miR-15b-5p to regulate TLR4. Silencing XIST inhibited TLR4 by promotingmiR-15b-5p. miR-15b-5p inhibition or TLR4 overexpression averted the inhibitory effect ofsilencing XIST on HG-induced RTEC pyroptosis.CONCLUSIONSilencing XIST inhibits TLR4 by upregulating miR-15b-5p and ultimately inhibits renal injury inDN by inhibiting NLRP3/caspase-1-mediated RTEC pyroptosis.
基金Supported by Guangdong Natural Science Foundation(No.S2012010008170)Specialized Research Fund for the Doctoral Program of Higher Education(No.20120001120096)National Basic Research Program of China(973 Program,No.2014CB910200)~~
基金the National Natural Science Foundation of China(No 30400065)
文摘Two DNA fragments encoding PDZ domain (21-110 residues) and BAR domain ( 150-360 residues) from PICK1 (1-416 residues) were amplified by PCR and then introduced into vectors, pET-32M and pMAL-e2X respectively to generate recombinant plasmids, pE-pdz and pM-bar. Having been separately transferred into the hosts E. coli BL21 and E. coli JM109, these two strains can express fusion proteins: His-tagged PDZ(PDZ domain) and maltose binding protein-BAR( MBP-BAR domain) respectively, as confirmed by both SDS-PAGE and Wostem blotting. The interaction between these two domains is dose-dependence, as identified by a pull-down test. Moreover, it has been shown from the ELISA analysis that the actual amount of PDZ bound to MBP-BAR-amylose beads reaches ( 16 ± 0. 5)%, as calculated by the molar ratio of PDZ to MBP-BAR. In addition, the interaction between BAR(bait) and PDZ(prey) in vivo was also examined with a yeast two-hybrid system.
基金Supported by National Basic Research Program of China(973 Program,No.2014CB910200)National Natural Science Foundation of China(No.81370522 and No.31400647)+1 种基金Guangdong Natural Science Foundation(No.S2012010008170)Specialized Research Fund for the Doctoral Program of Higher Education(No.20120001120096)~~
文摘多重PDZ结构域蛋白1型(MUPP1)是一种存在于上皮细胞和神经细胞内含有13个PDZ结构域的重要支架蛋白.在上皮细胞中,MUPP1蛋白在紧密连接结构的形成和上皮细胞的极化过程中发挥重要作用.而在中枢神经系统中,MUPP1基因的1个提前终止突变导致了其最后12个PDZ结构域的缺失,以及严重的先天性脑积水.此外,MUPP1蛋白的表达水平与酒精依赖性和药物戒断的严重性也具有显著的相关性.因此,对MUPP1蛋白所含的PDZ结构域进行纯化和性质鉴定,将有助于深入研究MUPP1蛋白的功能和分子机制.在本文研究中,利用亲和纯化和分子筛技术,对大鼠来源的MUPP1蛋白的第8个PDZ结构域进行了表达和纯化.多角度激光光散射的数据表明:MUPP1-PDZ8结构域在溶液中为单体,分子量为16.4 k D.圆二色谱结果表明,MUPP1-PDZ8结构域具有较好的二级结构折叠,测得其熔解温度为71.6摄氏度,暗示该PDZ结构域在溶液中非常稳定.最后,MUPP1-PDZ8结构域的晶体结构显示,该结构域属于I型PDZ结构域,包含3个α螺旋和6个β折叠.其中GLGL模块、β折叠B上的1 351位亮氨酸,以及α螺旋B上的1 405位异亮氨酸/1 398位组氨酸形成的PDZ结合口袋,可以特异性地与其目标蛋白质的羧基末端相结合.综上所述,本文的研究提供了MUPP1-PDZ8结构域的生化特性,以及该结构域与其目标蛋白质相互作用的分子机制,这将为MUPP1蛋白的功能研究提供生物化学与结构生物学的理论基础.
基金supported by the National Natural Science Foundation of China(Youth Program),No.81901282(to XC)the National Natural Science Foundation of China,Nos.81401416(to PX),81870992(to PX),81870856(to XC and MZ)+3 种基金Guangdong Basic and Applied Basic Research Foundation the Science Foundation,No.2019A1515011189(to XC)Central Government Guiding Local Science and Technology Development Projects,No.ZYYD2022C17(to PX)Key Project of Guangzhou Health Commission,No.2019-ZD-09(to PX)Science and Technology Planning Project of Guangzhou,Nos.202102020029(to XC),202102010010(to PX)。
文摘Mitochondrial dysfunction is a significant pathological alte ration that occurs in Parkinson's disease(PD),and the Thr61lle(T61I)mutation in coiled-coil helix coiled-coil helix domain containing 2(CHCHD2),a crucial mitochondrial protein,has been reported to cause Parkinson's disease.FIFO-ATPase participates in the synthesis of cellular adenosine triphosphate(ATP)and plays a central role in mitochondrial energy metabolism.However,the specific roles of wild-type(WT)CHCHD2 and T611-mutant CHCHD2 in regulating F1FO-ATPase activity in Parkinson's disease,as well as whether CHCHD2 or CHCHD2 T61I affects mitochondrial function through regulating F1FO-ATPase activity,remain unclea r.Therefore,in this study,we expressed WT CHCHD2 and T61l-mutant CHCHD2 in an MPP^(+)-induced SH-SY5Y cell model of PD.We found that CHCHD2 protected mitochondria from developing MPP^(+)-induced dysfunction.Under normal conditions,ove rexpression of WT CHCHD2 promoted F1FO-ATPase assembly,while T61I-mutant CHCHD2 appeared to have lost the ability to regulate F1FO-ATPase assembly.In addition,mass spectrometry and immunoprecipitation showed that there was an interaction between CHCHD2 and F1FO-ATPase.Three weeks after transfection with AAV-CHCHD2 T61I,we intraperitoneally injected 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine into mice to establish an animal model of chronic Parkinson's disease and found that exogenous expression of the mutant protein worsened the behavioral deficits and dopaminergic neurodegeneration seen in this model.These findings suggest that WT CHCHD2 can alleviate mitochondrial dysfunction in PD by maintaining F1F0-ATPase structure and function.
文摘利用生物信息学数据库分析泛素样含PHD和环指结构域蛋白1(UHRF1)在恶性胸膜间皮瘤(MPM)中的表达水平及临床意义。基于TCGA数据库和GTEx数据库差异表达分析UHRF1 m RNA在MPM组织和正常肺组织中的表达水平;使用R软件分析UHRF1 mRNA表达量与临床病理参数的相关性;构建Kaplan-Meier模型和单因素多因素COX回归模型分析UHRF1基因在MPM中的预后;利用TIMER2.0数据库分析UHRF1基因与免疫细胞浸润的关系;GSEA分析UHRF1基因发挥功能的主要富集通路。选取8例MPM组织及4例非MPM胸膜组织,通过RT-q PCR的方法验证UHRF1在MPM与非MPM胸膜组织的表达情况。数据库分析结果表明,与正常肺组织相比,UHRF1 m RNA在MPM组织中高表达;UHRF1高表达患者提示MPM患者预后不良;UHRF1基因表达量与CD4^(+)辅助型T细胞2、CD4^(+)效应记忆性T细胞、巨噬细胞等多种免疫细胞浸润水平具有显著的相关性(P<0.01),且显著影响MPM患者的预后。功能富集分析显示,UHRF1主要在DNA复制、蛋白酶体、同源重组等通路中起作用。在收集到的病例样本中,与非MPM胸膜组织相比,UHRF1 mRNA在MPM组织中的表达显著增高(P<0.001)。UHRF1在MPM组织中高表达,可能通过调节DNA甲基化和免疫细胞浸润来影响MPM患者预后,有望成为MPM治疗和预后评估的潜在靶点。