Chronic ureteral obstruction in the rat suppresses renal tubular Bcl-2 and stimulates apoptosis.

R L Chevalier, C D Smith, J Wolstenholme, S Krajewski, J C Reed
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引用次数: 46

Abstract

Unilateral ureteral obstruction (UUO) results in widespread tubular apoptosis in obstructed kidneys of both adults and neonates. The oncoprotein bcl-2 inhibits many forms of apoptosis, whereas the related protein bax promotes apoptosis. To evaluate the interaction of bcl-2, bax, and apoptosis in the renal response to UUO, adult and neonatal rats were subjected to UUO or sham operation, and kidneys were harvested 14 days later. Apoptotic cells were identified by the Tunel technique, and the distribution of bcl-2 and bax was determined by immunochemistry. In both adults and neonates, tubular and interstitial apoptosis was present in the obstructed kidney, but not in intact kidneys. In both adults and neonates, there was diffuse tubular bcl-2 and bax staining of sham-operated and intact kidneys. While bcl-2 was increased in scattered nonapoptotic tubules of the obstructed kidney, there was minimal staining of dilated apoptotic tubules. These results are consistent with the premise that bcl-2 normally suppresses renal tubular apoptosis. The distribution of bax staining in tubules of the obstructed kidney overlapped that of bcl-2. We conclude that chronic UUO inhibits bcl-2 expression in selected tubules of the obstructed kidney which contributes to activation of apoptosis and progressive renal damage in either neonatal or adult kidneys. Dysregulation of apoptosis may be a response to renal injury similar to that underlying the development of cystic kidney disease or renal dysplasia.

大鼠慢性输尿管梗阻抑制肾小管Bcl-2并刺激细胞凋亡。
单侧输尿管梗阻(UUO)导致成人和新生儿肾脏梗阻中广泛的肾小管凋亡。癌蛋白bcl-2抑制多种形式的细胞凋亡,而相关蛋白bax促进细胞凋亡。为了评估bcl-2、bax和细胞凋亡在肾对UUO反应中的相互作用,我们对成年和新生大鼠进行UUO或假手术,并在14天后摘取肾脏。Tunel法检测凋亡细胞,免疫化学法检测bcl-2和bax的分布。在成人和新生儿中,肾小管和间质细胞凋亡存在于梗阻的肾脏中,而不存在于完整的肾脏中。在成人和新生儿中,假手术和完整肾脏均可见弥漫性肾小管bcl-2和bax染色。虽然bcl-2在梗阻肾的分散的非凋亡小管中升高,但扩张的凋亡小管染色很少。这些结果与bcl-2正常抑制肾小管凋亡的前提一致。bax染色在梗阻肾小管中的分布与bcl-2的分布重叠。我们得出结论,慢性UUO抑制梗阻肾小管中bcl-2的表达,这有助于激活新生儿或成人肾脏的细胞凋亡和进行性肾损伤。细胞凋亡的失调可能是对肾损伤的反应,类似于囊性肾病或肾发育不良的潜在发展。
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