Stroke is a leading cause of mortality and disability worldwide.Ischemic cell death triggered by the compromised supply of blood oxygen and glucose is one of the major pathophysiology of strokeinduced brain injury.Imp...Stroke is a leading cause of mortality and disability worldwide.Ischemic cell death triggered by the compromised supply of blood oxygen and glucose is one of the major pathophysiology of strokeinduced brain injury.Impaired mitochondrial energy metabolism is observed minutes after stroke and is closely associated with the progression of neuropathology.Recently,a new type of posttranslational modification,known as lysine succinylation,has been recognized to play a significant role in mitochondrial energy metabolism after ischemia.However,the role of succinylation modification in cell metabolism after stroke and its regulation are not well understood.We aimed to review the effects of succinylation on energy metabolism,reactive oxygen species generation,and neuroinflammation,as well as Sirtuin 5 mediated desuccinylation after stroke.We also highlight the potential of targeting succinylation/desuccinylation as a promising strategy for the treatment of stroke.The succinylation level is dynamically regulated by the nonenzymatic or enzymatic transfer of a succinyl group to a protein on lysine residues and the removal of succinyl catalyzed by desuccinylases.Mounting evidence has suggested that succinylation can regulate the metabolic pathway through modulating the activity or stability of metabolic enzymes.Sirtuins,especially Sirtuin 5,are characterized for their desuccinylation activity and have been recognized as a critical regulator of metabolism through desuccinylating numerous metabolic enzymes.Imbalance between succinylation and desuccinylation has been implicated in the pathophysiology of stroke.Pharmacological agents that enhance the activity of Sirtuin 5 have been employed to promote desuccinylation and improve mitochondrial metabolism,and neuroprotective effects of these agents have been observed in experimental stroke studies.However,their therapeutic efficacy in stroke patients should be validated.展开更多
研究了无有机胺醇水体系低硅铝比ZSM-5沸石的绿色合成方法。在无有机胺模板剂和不加晶种的醇水体系中,一步合成了形貌均一的小晶粒聚集体低硅铝比ZSM-5沸石,考察了合成体系中各配料的含量以及晶化温度对合成低硅铝比ZSM-5沸石的影响。利...研究了无有机胺醇水体系低硅铝比ZSM-5沸石的绿色合成方法。在无有机胺模板剂和不加晶种的醇水体系中,一步合成了形貌均一的小晶粒聚集体低硅铝比ZSM-5沸石,考察了合成体系中各配料的含量以及晶化温度对合成低硅铝比ZSM-5沸石的影响。利用XRD、FTIR、SEM、N_(2)吸附-脱附、^(27)Al MAS NMR和^(29)Si MAS NMR等方法对合成的ZSM-5沸石进行表征。实验结果表明,当n(Si)∶n(Al)=20,n(Na_(2)O)∶n(SiO_(2))=0.071,n(C_(2)H_(5)OH)∶n(SiO_(2))=1.77,晶化温度为160℃时,可合成具有高结晶度的纯相ZSM-5沸石。^(27)Al MAS NMR表征结果显示,合成的ZSM-5沸石主要含有骨架四配位铝,无非骨架铝。合成的ZSM-5沸石的比表面积和微孔孔体积分别为384 m^(2)/g和0.14 cm^(3)/g,总酸量达到789μmol/g,骨架n(Si)∶n(Al)=14.4。展开更多
基金Key Research and Development Plan of Shaanxi Province(2023-YBGY-290)Research Project of Shaanxi Yanchang Petroleum(Group)Co.,Ltd.(No.ycsy2023ky-B-81)。
基金supported by the National Natural Science Foundation of China,No.82071283(to QH)the Natural Science Foundation of Shanghai,No.22ZR1437700(to QH)。
文摘Stroke is a leading cause of mortality and disability worldwide.Ischemic cell death triggered by the compromised supply of blood oxygen and glucose is one of the major pathophysiology of strokeinduced brain injury.Impaired mitochondrial energy metabolism is observed minutes after stroke and is closely associated with the progression of neuropathology.Recently,a new type of posttranslational modification,known as lysine succinylation,has been recognized to play a significant role in mitochondrial energy metabolism after ischemia.However,the role of succinylation modification in cell metabolism after stroke and its regulation are not well understood.We aimed to review the effects of succinylation on energy metabolism,reactive oxygen species generation,and neuroinflammation,as well as Sirtuin 5 mediated desuccinylation after stroke.We also highlight the potential of targeting succinylation/desuccinylation as a promising strategy for the treatment of stroke.The succinylation level is dynamically regulated by the nonenzymatic or enzymatic transfer of a succinyl group to a protein on lysine residues and the removal of succinyl catalyzed by desuccinylases.Mounting evidence has suggested that succinylation can regulate the metabolic pathway through modulating the activity or stability of metabolic enzymes.Sirtuins,especially Sirtuin 5,are characterized for their desuccinylation activity and have been recognized as a critical regulator of metabolism through desuccinylating numerous metabolic enzymes.Imbalance between succinylation and desuccinylation has been implicated in the pathophysiology of stroke.Pharmacological agents that enhance the activity of Sirtuin 5 have been employed to promote desuccinylation and improve mitochondrial metabolism,and neuroprotective effects of these agents have been observed in experimental stroke studies.However,their therapeutic efficacy in stroke patients should be validated.
文摘研究了无有机胺醇水体系低硅铝比ZSM-5沸石的绿色合成方法。在无有机胺模板剂和不加晶种的醇水体系中,一步合成了形貌均一的小晶粒聚集体低硅铝比ZSM-5沸石,考察了合成体系中各配料的含量以及晶化温度对合成低硅铝比ZSM-5沸石的影响。利用XRD、FTIR、SEM、N_(2)吸附-脱附、^(27)Al MAS NMR和^(29)Si MAS NMR等方法对合成的ZSM-5沸石进行表征。实验结果表明,当n(Si)∶n(Al)=20,n(Na_(2)O)∶n(SiO_(2))=0.071,n(C_(2)H_(5)OH)∶n(SiO_(2))=1.77,晶化温度为160℃时,可合成具有高结晶度的纯相ZSM-5沸石。^(27)Al MAS NMR表征结果显示,合成的ZSM-5沸石主要含有骨架四配位铝,无非骨架铝。合成的ZSM-5沸石的比表面积和微孔孔体积分别为384 m^(2)/g和0.14 cm^(3)/g,总酸量达到789μmol/g,骨架n(Si)∶n(Al)=14.4。