[1]毕雪,李轩.Sirt1治疗后发性白内障的研究进展[J].眼科新进展,2020,40(7):686-690.[doi:10.13389/j.cnki.rao.2020.0157]
 BI Xue,LI Xuan.The research advances of Sirt1 in the treatment of posterior capsular opacification[J].Recent Advances in Ophthalmology,2020,40(7):686-690.[doi:10.13389/j.cnki.rao.2020.0157]
点击复制

Sirt1治疗后发性白内障的研究进展/HTML
分享到:

《眼科新进展》[ISSN:1003-5141/CN:41-1105/R]

卷:
40卷
期数:
2020年7期
页码:
686-690
栏目:
文献综述
出版日期:
2020-07-05

文章信息/Info

Title:
The research advances of Sirt1 in the treatment of posterior capsular opacification
作者:
毕雪李轩
300020 天津市,天津医科大学眼科临床学院 天津市眼科医院 天津市眼科学与视觉科学重点实验室 天津市眼科研究所
Author(s):
BI Xue LI Xuan
Clinical College of Ophthalmology, Tianjin Medical University, Tianjin Eye Hospital, Tianjin Key Laboratory of Ophthalmology and Visual Science, Tianjin Institute of Ophthalmology, Tianjin 300020, China
关键词:
Sirt1microRNA后发性白内障
Keywords:
Sirt1microRNAposterior capsular opacification
分类号:
R776.1
DOI:
10.13389/j.cnki.rao.2020.0157
文献标志码:
A
摘要:
Sirt1是sirtuin家族中研究较为广泛和深入的成员。Sirt1如交通枢纽一般,连接上游microRNA及下游各种转录因子,在抗衰老、细胞凋亡、氧化应激和DNA损伤方面发挥显著作用。后发性白内障(posterior capsular opacification,PCO)是导致白内障患者术后视力下降最常见的并发症。目前国内外研究尚未有Sirt1对PCO的发生发展的体内、外相关研究。本文综述了Sirt1生物学作用的主要路径以及Sirt1在后发性白内障治疗中的前景展望。
Abstract:
Sirt1 is an extensive and in-depth member of the sirtuin family. Like a transportation hub, it connects upstream microRNA and various downstream transcription factors, and plays an important role in anti-aging, cell apoptosis, oxidative stress and DNA damage. Posterior capsular opacification (PCO) is the most common complication of postoperative visual acuity loss in cataract patients. At present, there are no in vivo and in vitro studies on the occurrence and development of PCO by Sirt1. This article provides a review on the main pathways of biological action of Sirt1 and the prospect of Sirt1 in the treatment of PCO.

参考文献/References:

[1] RODRIGUEZ R M,FRAGA M F.Aging and cancer: are sirtuins the link[J].Future Oncol,2010,6(6):905-915.
[2] SHORE D,SQUIRE M,NASMYTH K A.Characterization of two genes required for the position-effect control of yeast mating-type genes[J].EMBO J,1984,3(12):2817-2823.
[3] FRYE R A.Phylogenetic classification of prokaryotic and eukaryotic Sir2-like proteins[J].Biochem Biophys Res Commun,2000,273(2):793-798.
[4] BALAIYA S,ABU-AMERO K K,KONDKAR A A,CHALAM K V.Sirtuins expression and their role in retinal diseases[J].Oxid Med Cell Longev,2017,2017:3187594.
[5] XU Y,LI F,LYU L,LI T,ZHOU X,DENG C X,et al.Oxidative stress activates SIRT2 to deacetylate and stimulate phosphoglycerate mutase[J].Cancer Res,2014,74(13):3630-3642.
[6] GOMES B A Q,SILVA J P B,ROMEIRO C F R,DOS SANTOS S M,RODRIGUES C A,GONCALVES P R,et al.Neuroprotective mechanisms of resveratrol in alzheimer’s disease:role of SIRT1[J].Oxid Med Cell Longev,2018,2018:8152373.
[7] LIMA L C F,SALIBA S W,ANDRADE J M O,CUNHA M L,CASSINI-VIEIRA P,FELTENBERGER J D,et al.Neurodegeneration alters metabolic profile and Sirt 1 signaling in high-fat-induced obese mice[J].Mol Neurobiol,2017,54(5):3465-3475.
[8] TORRES G,DILEO J N,HALLAS B H,HOROWITZ J M,LEHESTE J R.Silent information regulator 1 mediates hippocampal plasticity through presenilin1[J].Neuroscience,2011,179:32-40.
[9] WANG G,WANG F,REN J,QIU Y,ZHANG W,GAO S,et al.SIRT1 involved in the regulation of alternative splicing affects the DNA damage response in neural stem cells[J].Cell Physiol Biochem,2018,48(2):657-669.
[10] CHALKIADAKI A,GUARENTE L.The multifaceted functions of sirtuins in cancer[J].Nat Rev Cancer,2015,15(10):608-624.
[11] JALIFFA C,AMEQRANE I,DANSAULT A,LEEMPUT J,VIEIRA V,LACASSAGNE E,et al.Sirt1 involvement in Rd10 mouse retinal degeneration[J].Invest Ophthalmol Vis Sci,2009,50(8):3562-3572.
[12] KANG L,ZHAN W,ZHANG G,WU J,GUAN H.Acetylated 8-oxoguanine DNA glycosylase 1 and its relationship with p300 and SIRT1 in lens epithelium cells from age-related cataract[J].Exp Eye Res,2015,135:102-108.
[13] TONG P,PENG Q H,GU L M,XIE W W,LI W J.LncRNA-MEG3 alleviates high glucose induced inflammation and apoptosis of retina epithelial cells via regulating miR-34a/SIRT1 axis[J].Exp Mol Pathol,2019,107:102-109.
[14] ALVES L F,FERNANDES B F,BURNIER J V,MANSURE J J,MALONEY S,ODASHIRO A N,et al.Expression of SIRT1 in ocular surface squamous neoplasia[J].Cornea,2012,31(7):817-819.
[15] THOR T,KUNKELE A,PAJTLER K W,WEFERS A K,STEPHAN H,MESTDAGH P,et al.MiR-34a deficiency accelerates medulloblastoma formation in vivo[J].Int J Cancer,2015,136(10):2293-2303.
[16] LI L.Regulatory mechanisms and clinical perspectives of miR-34a in cancer[J].J Cancer Res Ther,2014,10(4):805-810.
[17] LAMOKE F,SHAW S,YUAN J,ANANTH S,DUNCAN M,MARTIN P,et al.Increased oxidative and nitrative stress accelerates aging of the retinal vasculature in the diabetic retina[J].PLoS ONE,2015,10(10):e0139664.
[18] LI Q L,ZHANG H Y,QIN Y J,MENG Q L,YAO X L,GUO H K.MicroRNA-34a promoting apoptosis of human lens epithelial cells through down-regulation of B-cell lymphoma-2 and silent information regulator[J].Int J Ophthalmol,2016,9(11):1555-1560.
[19] 季青山,俞茜,孙思勤,温跃春,柯根杰.miR-34a/SIRT1表达水平与大鼠白内障发生的相关性研究[J].中华临床医师杂志(电子版),2017,(13):1982-1986.
JI Q S,YU X,SUN S Q,WEN Y C,KE G J.Relationship between miR-34a/SIRT1 expression and cataract in rats[J].Chin J Clinic(Elec Edit),2017,(13):1982-1986.
[20] RAGUSA M,CALTABIANO R,RUSSO A,PUZZO L,AVITABILE T,LONGO A,et al.MicroRNAs in vitreus humor from patients with ocular diseases[J].Mol Vis,2013,19:430-440.
[21] LU B,CHRISTENSEN I T,MA L W,WANG X L,JIANG L F,WANG C X,et al.miR-211 promotes lens epithelial cells apoptosis by targeting silent mating-type information regulation 2 homolog 1 in age-related cataracts[J].Int J Ophthalmol,2018,11(2):201-207.
[22] ZENG K,FENG Q G,LIN B T,MA D H,LIU C M.Effects of microRNA-211 on proliferation and apoptosis of lens epithelial cells by targeting SIRT1 gene in diabetic cataract mice[J].Biosci Rep,2017,37(4):BSR20170695.
[23] AN J,CHEN X,CHEN W,LIANG R,REINACH P S,YAN D,et al.MicroRNA expression profile and the role of miR-204 in corneal wound healing[J].Invest Ophthalmol Vis Sci,2015,56(6):3673-3683.
[24] KUBO E,HASANOVA N,SASAKI H,SINGH D P.Dynamic and differential regulation in the microRNA expression in the developing and mature cataractous rat lens[J].J Cell Mol Med,2013,17(9):1146-1159.
[25] 解晓丹,赵江月,赵芳坤,秦宇,张劲松.miR-204调控SIRT1在人晶状体上皮细胞凋亡中机制研究[J].中国实用眼科杂志,2017,35(5):527-532.
XIE X D,ZHAO J Y,ZHAO F K,QIN Y,ZHANG J S.Regulation mechanism of miR-204 targeted SIRT1 in human lens epithelial cell apoptosis[J].Chin J Pract Ophthalmol,2017,35(5):527-532.
[26] LAPTENKO O,PRIVES C.p53: master of life,death,and the epigenome[J].Genes Dev,2017,31(10):955-956.
[27] CONRAD E,POLONIO-VALLON T,MEISTER M,MATT S,BITOMSKY N,HERBEL C,et al.HIPK2 restricts SIRT1 activity upon severe DNA damage by a phosphorylation-controlled mechanism[J].Cell Death Differ,2016,23(1):110-122.
[28] CARLONI S,RIPARINI G,BUONOCORE G,BALDUINI W.Rapid modulation of the silent information regulator 1 by melatonin after hypoxia-ischemia in the neonatal rat brain[J].J Pineal Res,2017,63(3):10.
[29] XU K,WU S,LI Z,LOU H,YAO J,SUN H,et al.Expression of SIRT1 and p53 in rat lens epithelial cells in experimentally Induced DM[J].Curr Eye Res,2018,43(4):493-498.
[30] TSAI K L,SUN Y J,HUANG C Y,YANG J Y,HUNG M C,HSIAO C D.Crystal structure of the human FOXO3a-DBD/DNA complex suggests the effects of post-translational modification[J].Nucleic Acids Res,2007,35(20):6984-6994.
[31] YAN H,WU A.FOXO1 is crucial in glioblastoma cell tumorigenesis and regulates the expression of SIRT1 to suppress senescence in the brain[J].Mol Med Rep,2018,17(2):2535-2542.
[32] HUO L,BAI X,WANG Y,WANG M.Betulinic acid derivative B10 inhibits glioma cell proliferation through suppression of SIRT1,acetylation of FOXO3a and upregulation of Bim/PUMA[J].Biomed Pharmacother,2017,92:347-355.
[33] GU X,HAN D,CHEN W,ZHANG L,LIN Q,GAO J,et al.SIRT1-mediated FoxOs pathways protect against apoptosis by promoting autophagy in osteoblast-like MC3T3-E1 cells exposed to sodium fluoride[J].Oncotarget,2016,7(40):65218-65230.
[34] MAIESE K.SIRT1 and stem cells: In the forefront with cardiovascular disease,neurodegeneration and cancer[J].World J Stem Cells,2015,7(2):235-242.
[35] LIN C L,HUANG W N,LI H H,HUANG C N,HSIEH S,LAI C,et al.Hydrogen-rich water attenuates amyloid β-induced cytotoxicity through upregulation of Sirt1-FoxO3a by stimulation of AMP-activated protein kinase in SK-N-MC cells[J].Chem Biol Interact,2015,240:12-21.
[36] VOELTER-MAHLKNECHT S,MAHLKNECHT U.Cloning and structural characterization of the human histone deacetylase 6 gene[J].Int J Mol Med,2003,12(1):87-93.
[37] YEUNG F,HOBERG J E,RAMSEY C S,KELLER M D,JONES D R,FRYE R A,et al.Modulation of NF-kappaB-dependent transcription and cell survival by the SIRT1 deacetylase[J].EMBO J,2004,23(12):2369-2380.
[38] LIU T F,BROWN C M,EL GAZZAR M,MCPHAIL L,MILLET P,RAO A,et al.Fueling the flame: bioenergy couples metabolism and inflammation[J].J Leukoc Biol,2012,92(3):499-507.
[39] RUDERMAN N B,XU X J,NELSON L,CACICEDO J M,SAHA A K,LAN F,et al.AMPK and SIRT1: a long-standing partnership[J].Am J Physiol Endocrinol Metab,2010,298(4):E751-760.
[40] LAN F,CACICEDO J M,RUDERMAN N,IDO Y.SIRT1 modulation of the acetylation status,cytosolic localization,and activity of LKB1.Possible role in AMP-activated protein kinase activation[J].J Biol Chem,2008,283(41):27628-27635.
[41] MELEY D,BAUVY C,HOUBEN-WEERTS J H,DUBBELHUIS P F,HELMOND M T,CODOGNO P,et al.AMP-activated protein kinase and the regulation of autophagic proteolysis[J].J Biol Chem,2006,281(46):34870-34879.
[42] FERNANDEZ-MARCOS P J,AUWERX J.Regulation of PGC-1α,a nodal regulator of mitochondrial biogenesis[J].Am J Clin Nutr,2011,93(4):884-890.
[43] SUGDEN M C,CATON P W,HOLNESS M J.PPAR control: it’s SIRTainly as easy as PGC[J].J Endocrinol,2010,204(2):93-104.
[44] ELDRED J A,DAWES L J,WORMSTONE I M.The lens as a model for fibrotic disease[J].Philos Trans R Soc Lond B Biol Sci,2011,366(1568):1301-1319.
[45] RAJ S M,VASAVADA A R,KAID J S,VASAVADA V A,VASAVADA V A.Post-operative capsular opacification[J].Nepal J Ophthalmol,2009,1(1):43-59.
[46] DAWES L J,DUNCAN G,WORMSTONE I M.Age-related differences in signaling efficiency of human lens cells underpin differential wound healing response rates following cataract surgery[J].Invest Ophthalmol Vis Sci,2013,54(1):333-342.
[47] NISHI O.Other factors in PCO prevention[J].J Cataract Refract Surg,2012,38(5):924-925.
[48] MCLEAN S M,MATHEW M R,KELLY J B,MURRAY S B,BENNETT H G,WEBB L A,et al.Detection of integrins in human cataract lens epithelial cells and two mammalian lens epithelial cell lines[J].Br J Ophthalmol,2005,89(11):1506-1509.
[49] DE IONGH RU,WEDERELL E,LOVICU F J,MCAVOY J W.Transforming growth factor-beta-induced epithelial-mesenchymal transition in the lens: a model for cataract formation[J].Cells Tissues Organs,2005,179(1-2):43-55.
[50] LOPEZ-NOVOA J M,NIETO M A.Inflammation and EMT: an alliance towards organ fibrosis and cancer progression[J].EMBO Mol Med,2009,1(6-7):303-314.
[51] PANDE M V,SPALTON D J,KERR-MUIR M G,MARSHALL J.Postoperative inflammatory response to phacoemulsification and extracapsular cataract surgery: aqueous flare and cells[J].J Cataract Refract Surg,1996,22(Suppl 1):770-774.
[52] MARCANTONIO J M,SYAM P P,LIU C S,DUNCAN G.Epithelial transdifferentiation and cataract in the human lens[J].Exp Eye Res,2003,77(3):339-346.
[53] ZHENG T,LU Y.Changes in SIRT1 expression and its downstream pathways in age-related cataract in humans[J].Curr Eye Res,2011,36(5):449-455.
[54] KONDO A,GOTO M,MIMURA T,MATSUBARA M.Silent information regulator T1 in aqueous humor of patients with cataract[J].Clin Ophthalmol,2016,10:307-312.
[55] 金尚丽,郭海科,陈智慧.SIRT1基因在糖尿病性白内障患者晶状体上皮细胞表达的初步研究[J].国际眼科杂志,2015,(6):968-971.
Jin S L,GUO H K,CHEN Z H.Preliminary study on expression of SIRT1 gene in lens epithelial cells of diabetic cataract patients[J].Int Eye Sci,2015,15(6):968-971.
[56] QIN Y,ZHAO J,MIN X,WANG M,LUO W,WU D,et al.MicroRNA-125b inhibits lens epithelial cell apoptosis by targeting p53 in age-related cataract[J].Biochim Biophys Acta,2014,1842(12 Pt A):2439-2447.
[57] SUN T,JIAO L,WANG Y,YU Y,MING L.SIRT1 induces epithelial-mesenchymal transition by promoting autophagic degradation of E-cadherin in melanoma cells[J].Cell Death Dis,2018,9(2):136.
[58] LI X,JIANG Z,LI X,ZHANG X.SIRT1 overexpression protects non-small cell lung cancer cells against osteopontin-induced epithelial-mesenchymal transition by suppressing NF-κB signaling[J].Onco Targets Ther,2018,11:1157-1171.
[59] ZHANG Z,HUANG W,LEI M,HE Y,YAN M,ZHANG X,et al.Laser-triggered intraocular implant to induce photodynamic therapy for posterior capsule opacification prevention[J].Int J Pharm,2016,498(1-2):1-11.

相似文献/References:

[1]张俊 周琦 吕红彬.MicroRNA 及其在糖尿病视网膜病变中的研究进展[J].眼科新进展,2012,32(2):000.
[2]迟源 王海林 谢晚晴 才文卓 才丽平.MicroRNA调节视网膜新生血管研究进展[J].眼科新进展,2013,33(2):000.
[3]陈小龙 李晶 齐艳秀 刘远光 王冬兰.山茱萸多糖对衰老小鼠视网膜相关因子表达的影响[J].眼科新进展,2013,33(4):000.
[4]张笃贞,张涤,孙鹏,等. 白藜芦醇对糖尿病大鼠视网膜中SIRT1基因表达的干预作用[J].眼科新进展,2014,34(4):322.[doi:10.13389/j.cnki.rao.2014.0087]
[5]肖情,冯光强.microRNA对原发性青光眼TGF-β和CYP1B1基因调控的研究进展[J].眼科新进展,2014,34(5):497.[doi:10.13389/j.cnki.rao.2014.0137]
 XIAO Qing,FENG Guang-Qiang.Recent advances in MiRNA regulating TGF-β and CYP1B1 gene in primary glaucoma[J].Recent Advances in Ophthalmology,2014,34(7):497.[doi:10.13389/j.cnki.rao.2014.0137]
[6]何宇,范玮,张军军.miR183/96/182在眼科学的研究进展[J].眼科新进展,2014,34(6):589.[doi:10.13389/j.cnki.rao.2014.0163]
[7]金鑫,张红.MicroRNA在年龄相关性黄斑变性发病中的作用[J].眼科新进展,2014,34(8):787.[doi:10.13389/j.cnki.rao.2014.0218]
 JIN Xin,ZHANG Hong.Role of microRNA in pathogenesis of agerelated macular degeneration[J].Recent Advances in Ophthalmology,2014,34(7):787.[doi:10.13389/j.cnki.rao.2014.0218]
[8]王旭,严宏. MicroRNA与白内障相关性的研究进展[J].眼科新进展,2015,35(4):387.[doi:10.13389/j.cnki.rao.2015.010]
 WANG Xu,YAN Hong. Recent research progress on correlation between Micro RNA and cataract[J].Recent Advances in Ophthalmology,2015,35(7):387.[doi:10.13389/j.cnki.rao.2015.010]
[9]李云燕,邵毅,高桂平.MicroRNA在葡萄膜恶性黑色素瘤中的研究进展[J].眼科新进展,2016,36(5):485.[doi:10.13389/j.cnki.rao.2016.0130]
 LI Yun-Yan,SHAO Yi,GAO Gui-Ping.Research progression on microRNA in uveal melanomas[J].Recent Advances in Ophthalmology,2016,36(7):485.[doi:10.13389/j.cnki.rao.2016.0130]
[10]张帆,吴京,陈林江,等.雷珠单抗对角膜新生血管的抑制作用以及对血管生成相关miRNAs表达的影响[J].眼科新进展,2020,40(11):1010.[doi:10.13389/j.cnki.rao.2020.0226]
 ZHANG Fan,WU Jing,CHEN Linjiang,et al.Effects of ranibizumab on corneal neovascularization and angiogenesis-related miRNAs expression in rats[J].Recent Advances in Ophthalmology,2020,40(7):1010.[doi:10.13389/j.cnki.rao.2020.0226]

备注/Memo

备注/Memo:
国家自然科学基金资助(编号:81670837);天津市应用基础与前沿技术研究计划项目(编号:15JCZDJC35300);天津市卫生行业重点攻关项目(编号:14KGI33)
更新日期/Last Update: 2020-07-05