晚期糖基化终末产物通过激活FOXO4转录因子诱导足细胞凋亡。

Advanced glycation endproducts induce podocyte apoptosis by activation of the FOXO4 transcription factor.

作者信息

Chuang P Y, Yu Q, Fang W, Uribarri J, He J C

机构信息

Division of Nephrology, Department of Medicine, Mount Sinai School of Medicine, James J Peters VA Medical Center, New York, New York 10029, USA.

出版信息

Kidney Int. 2007 Oct;72(8):965-76. doi: 10.1038/sj.ki.5002456. Epub 2007 Aug 1.

DOI:10.1038/sj.ki.5002456

PMID:17667983

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3191877/

Abstract

Advanced glycation endproducts (AGEs) and a receptor for AGEs (RAGE) have been linked in the pathogenesis of diabetic nephropathy. RAGE is usually localized to podocytes and is increased in diabetes. RAGE activation increases reactive oxygen species production, which mediates hyperglycemia-induced podocyte apoptosis in early diabetic nephropathy. Here, we examined the interaction of AGE and RAGE on podocyte apoptosis. When we exposed murine cultured podocytes to bovine serum albumin (BSA) that was modified by AGEs or to carboxymethyl-lysine BSA, more apoptosis was found when compared with unmodified BSA. Similarly, more podocytes underwent detachment and apoptosis when cultured on AGE-modified collagen IV than on native collagen IV. AGEs isolated from sera of patients with chronic kidney disease also caused apoptosis of podocytes. Apoptosis was diminished by small interference RNA (siRNA) for RAGE in podocytes exposed to AGE-BSA, but not to AGE-modified collagen IV. Both AGE- and carboxymethyl-lysine modified-BSA activated p38MAP kinase and inhibition of this kinase reduced the apoptotic effect of AGE-BSA. Exposure to AGE-BSA was associated with Akt dephosphorylation and FOXO4 transcriptional activation leading to an increase in the expression of an effector protein of apoptosis, Bim. siRNA for FOXO4 abolished AGE-BSA-induced apoptosis of podocytes. Our study suggests that an AGE-RAGE interaction contributes to podocyte apoptosis by activation of the FOXO4 transcription factor.

摘要

晚期糖基化终末产物（AGEs）与AGEs受体（RAGE）在糖尿病肾病的发病机制中存在关联。RAGE通常定位于足细胞，且在糖尿病状态下表达增加。RAGE激活会增加活性氧的产生，这介导了早期糖尿病肾病中高血糖诱导的足细胞凋亡。在此，我们研究了AGE与RAGE在足细胞凋亡中的相互作用。当我们将小鼠培养的足细胞暴露于经AGE修饰的牛血清白蛋白（BSA）或羧甲基赖氨酸修饰的BSA时，与未修饰的BSA相比，发现更多的细胞发生凋亡。同样，与天然IV型胶原相比，在经AGE修饰的IV型胶原上培养时，更多的足细胞发生脱离和凋亡。从慢性肾脏病患者血清中分离出的AGEs也会导致足细胞凋亡。在暴露于AGE-BSA的足细胞中，针对RAGE的小干扰RNA（siRNA）可减少细胞凋亡，但对暴露于AGE修饰的IV型胶原的足细胞无效。AGE修饰的和羧甲基赖氨酸修饰的BSA均可激活p38丝裂原活化蛋白激酶，抑制该激酶可降低AGE-BSA的凋亡效应。暴露于AGE-BSA与Akt去磷酸化及FOXO4转录激活有关，导致凋亡效应蛋白Bim的表达增加。针对FOXO4的siRNA可消除AGE-BSA诱导的足细胞凋亡。我们的研究表明，AGE-RAGE相互作用通过激活FOXO4转录因子促进足细胞凋亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/801c/3191877/04aec1bc87e3/nihms327437f1.jpg

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