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| Research progress of Sestrin2 anti-oxidative stress effect in ischemia reperfusion |
| GUO Ming XIA Zhongyuan |
| Department of Anesthesiology, Renmin Hospital of Wuhan University, Hubei Province, Wuhan 430060, China |
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Abstract Sestrin2 is a highly conserved, stress-inducible protein. As a important protein for P53-regulated mammalian target of rapamyein complex (mTORC1) signaling pathway, Sestrin2 activates AMP activated protein kinase (AMPK) and target it to phosphorylate tuberous seleresis complex (TSC2), thereby inhibiting mTORC1, reducing the ischemia-reperfusion injury. In recent years, there are great progress in the studis of Sestrin2. This paper reviews the role of Sestrin2 in anti-oxidative stress and the potential clinical application as a therapeutic target to prevent/treat related diseases.
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[1] Wild S,Roglic G,Green A,et al. Global prevalence of diabetes: estimates for the year 2000 and projections for 2030 [J]. Diabetes Care,2004,27(5):1047-1053.
[2] Nathan DM. The diabetes control and complications trial/epidemiology of diabetes interventions and complications study at 30 years: overview [J]. Diabetes Care,2014,37(1):9-16.
[3] Zoungas S,Chalmers J,Ninomiya T,et al. Association of HbA1c levels with vascular complications and death in patients with type 2 diabetes: evidence of glycaemic thresholds [J]. Diabetologia,2012,55(3):636-643.
[4] Harman D. Aging:a theory based on free radical and radiation chemistry [J]. J Gerontol,1956,11(3):298-300.
[5] Valko M,Leibfritz D,Moncol J,et al. Free radicals and antioxidants in normal physiological functions and human disease [J]. Int J Biochem Cell Biol,2007,39(1):44-84.
[6] Kurutas EB,Ciragil P,Gul M,et al. The effects of oxidative stress in urinary tract infection [J]. Mediators Inflamm,2005,2005(4):242-244.
[7] McCord JM,Fridovich I. Superoxide dismutase. An enzymic function for erythrocuprein(hemocuprein)[J]. J Biol Chem,1969,244(22):6049-6055.
[8] Flora SJ. Structural,chemical and biological aspects of antioxidants for strategies against metal and metalloid exposure [J]. Oxid Med Cell Longev,2009,2(4):191-206.
[9] Harish G,Mahadevan A,Pruthi N,et al. Characterization of traumatic brain injury in human brains reveals distinct cellular and molecular changes in contusion and pericontusion [J]. J Neurochem,2015,134(1):156-172.
[10] Maiese K,Chong ZZ,Wang S,et al. Oxidant stress and signal transduction in the nervous system with the PI3-K,Akt,and mTOR cascade [J]. Int J Mol Sci,2012,13(11):13830-13866.
[11] Peng S,Zhao S,Yan F,et al. HDAC2 selectively regulates FOXO3a-mediated gene transcription during oxidative stress-induced neuronal cell death [J]. J Neurosci,2015,35(3):1250-1259.
[12] Maiese K. mTOR:Driving apoptosis and autophagy for neurocardiac complications of diabetes mellitus [J]. World J Diabetes,2015,6(2):217-224.
[13] Dalle-Donne I,Rossi R,Colombo R,et al. Biomarkers of oxidative damage in human disease [J]. Clin Chem,2006, 52(4):601-623.
[14] Finkel T,Holbrook NJ. Oxidants,oxidative stress and the biology of ageing [J]. Nature,2000,408(6809):239-247.
[15] Velasco-Miguel S,Buckbinder L,Jean P,et al. PA26,a novel target of the p53 tumor suppressor and member of the GADD family of DNA damage and growth arrest inducible genes [J]. Oncogene,1999,18(1):127-137.
[16] Woo HA,Bae SH,Park S,et al. Sestrin 2 is not a reductase for cysteine sulfinic acid of peroxiredoxins [J]. Antioxid Redox Signal,2009,11(4):739-745.
[17] Lee JH,Budanov AV,Karin M. Sestrins orchestrate cellular metabolism to attenuate aging [J]. Cell Metab,2013, 18(6):792-801.
[18] Budanov AV,Shoshani T,Faerman A,et al. Identification of a novel stress-responsive gene Hi95 involved in regulation of cell viability [J]. Oncogene,2002,21(39):6017-6031.
[19] Kim JS,Ro S,Kim M,et al. Sestrin2 inhibits mTORC1 through modulation of GATOR complexes [J]. Sci Rep,2015,5:9502.
[20] Morrison A,Chen L,Wang J,et al. Sestrin2 promotes LKB1-mediated AMPK activation in the ischemic heart [J]. FASEB J,2015,29(2):408-417.
[21] Peng M,Yin N,Li MO. Sestrins function as guanine nucleotide dissociation inhibitors for Rag GTPases to control mTORC1 signaling [J]. Cell,2014,159(1):122-133.
[22] Park H,Park H,Ro S,et al. Hepatoprotective role of Sestrin2 against chronic ER stress [J]. Nat Commun,2014, 5(5):4233.
[23] Kim J,Kundu M,Viollet B,et al. AMPK and mTOR regulate autophagy through direct phosphorylation of Ulk1 [J]. Nat Cell Biol,2011,13(2):132-141.
[24] Lee JH,Budanov AV,Park EJ,et al. Sestrin as a feedback inhibitor of TOR that prevents age-related pathologies [J]. Science,2010,327(5970):1223-1228.
[25] Mizushima N. Autophagy: process and function [J]. Genes Dev,2007,21(22):2861-2873.
[26] Guo Y,Darshi M,Ma Y,et al. Quantitative proteomic and functional analysis of liver mitochondria from high fat diet(HFD)diabetic mice [J]. Mol Cell Proteomics,2013, 12(12):3744-3758.
[27] 胡永亮,谭启杏,王红丽,等.Sestrin2通过抑制砷化物诱导的氧化应激反应发挥拮抗细胞凋亡的保护性作用[J].生物技术通讯,2016,27(3):314-317.DOI:10.3969/j.issn.1009-0002.2016.03.003.
[28] Bain JM,Moore L,Ren Z,et al. Vascular Endothelial Growth Factors A and C are Induced in the SVZ Following Neonatal Hypoxia-Ischemia and Exert Different Effects on Neonatal Glial Progenitors [J]. Translat Stroke Res,2013, 4(2):158-170.
[29] Shi X,Doycheva DM,Xu L,et al. Sestrin2 induced by hypoxia inducible factor1 alpha protects the blood-brain barrier via inhibiting VEGF after severe hypoxic-ischemic injury in neonatal rats [J]. Neurobiol Dis,2016,95:111-121.
[30] Shi X,Xu L,Doycheva DM,et al. Sestrin2,as a negative feedback regulator of mTOR,provides neuroprotection by activation AMPK phosphorylation in neonatal hypoxic-ischemic encephalopathy in rat pups [J]. J Cerebral Blood Flow Metab,2016,37(4):1447-1460.
[31] Chuang Y,Yang J,Yang D,et al. Roles of Sestrin2 and ribosomal protein S6 in transient global ischemia-induced hippocampal Neuronal Injury [J]. Int J Mol Sci,2015, 16(11):26406-26416.
[32] Wu C,Chen S,Yin J,et al. Nuclear Factor-kappaB-Dependent Sestrin2 Induction Mediates the Antioxidant Effects of BDNF Against Mitochondrial Inhibition in Rat Cortical Neurons [J]. Mol Neurobiol,2016,53(6):4126-4142.
[33] Chen Y,Chen S,Wu C,et al. Induction of sestrin2 as an endogenous protective mechanism against amyloid beta-peptide neurotoxicity in primary cortical culture [J]. Exp Neurol,2014,253(1):63-71.
[34] Donahoe SM,Stewart GC,McCabe CH,et al. Diabetes and mortality following acute coronary syndromes [J]. JAMA,2007,298(7):765-775.
[35] Sun W,Quan N,Wang L,et al. Cardiac-Specific Deletion of thePdha1 Gene Sensitizes Heart to Toxicological Actions of Ischemic Stress [J]. Toxicol Sci,2016,151(1):193-203.
[36] Kim MJ,Bae SH,Ryu JC,et al. SESN2/sestrin2 suppresses sepsis by inducing mitophagy and inhibiting NLRP3 activation in macrophages [J]. Autophagy,2016,12(8):1272-1291.
[37] Pagliassotti MJ. Endoplasmic reticulum stress in nonalcoholic fatty liver disease [J]. Annu Rev Nutr,2012,32(1):17-33.
[38] Malhi H,Kaufman RJ. Endoplasmic reticulum stress in liver disease [J]. J Hepatol,2011,54(4):795-809.
[39] Kimball SR,Ravi S,Gordon BS,et al. Amino Acid-Induced Activation of mTORC1 in Rat Liver Is Attenuated by Short-Term Consumption of a High-Fat Diet [J]. J Nutr,2015,145(11):2496-2502.
[40] Yang Y,Cuevas S,Yang S,et al. Sestrin2 Decreases Renal Oxidative Stress,Lowers Blood Pressure,and Mediates Dopamine D2 Receptor-Induced Inhibition of Reactive Oxygen Species Production [J]. Hypertension,2014, 64(4):825-832. |
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