链脲佐菌素糖尿病大鼠和未去肾大鼠肾近端小管细胞自噬的抑制作用。

A de A Barbosa Júnior, H Zhou, D Hültenschmidt, V Totovic, N Jurilj, U Pfeifer
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引用次数: 45

摘要

为探讨抗分解代谢在肾脏肥大中的作用,采用电镜形态学观察了链脲佐菌素(STZ)诱导糖尿病和单侧肾切除术后大鼠肾脏外皮层近端小管细胞(ptc)的细胞自噬情况。将成年雄性Sprague-Dawley大鼠分为3组,分别于诱导糖尿病后1、2、3天逆行灌注固定处死(D组;n = 24),单侧肾切除术后(n组;n = 24)及联合治疗后(DN组;N = 24)。未处理、年龄匹配的产仔作为对照组(C组;N = 24)。与对照组相比,D组在第1、2、3天时左肾与初始体重之比分别提高了8、23、15%,N组提高了8、23、24%,DN组提高了10、21、25%。大测试区域的定量评估显示,在这些肥大肾脏的ptc中,自噬液泡(AVs)的体积和数值密度明显低于对照组。D组平均降低房室体积密度约65%,N组平均降低50%,DN组平均降低75%。这些数据表明,ptc细胞质成分的自噬降解在肾肥大中被抑制,而不依赖于生长刺激,即未肾切除术或糖尿病。由于胰岛素本身抑制ptc的细胞自噬,胰岛素缺乏的预期影响似乎被尚未定义的可能与代谢工作负荷相关的刺激所抵消。
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Inhibition of cellular autophagy in proximal tubular cells of the kidney in streptozotocin-diabetic and uninephrectomized rats.

To examine the significance of anti-catabolism in renal hypertrophy, cellular autophagy was investigated by electron microscopic morphometry in proximal tubular cells (PTCs) of the outer cortex of the rat kidney after the induction of diabetes mellitus by streptozotocin (STZ) and after unilateral nephrectomy. Adult male Sprague-Dawley rats were divided into three groups and killed by retrograde perfusion fixation, 1, 2 and 3 days after the induction of diabetes (group D; n = 24), after unilateral nephrectomy (group N; n = 24) and after combined treatment (group DN; n = 24). Untreated, age-matched litter mates served as controls (group C; n = 24). By comparison with these controls, the left kidney to initial body weight ratio was increased by 8, 23, and 15% in group D animals, by 8, 23, and 24% in group N animals, and by 10, 21, and 25% in group DN animals at the first, second and third day, respectively. Quantitative evaluation of large test areas showed that the volume and numerical densities of autophagic vacuoles (AVs) in PTCs were significantly lower in these hypertrophed kidneys than in the controls. The average reduction in AV volume density was about 65% in group D animals, about 50% in group N animals and about 75% in group DN animals. These data show that autophagic degradation of cytoplasmic components in PTCs is inhibited in renal hypertrophy independently of the growth stimulus, i.e. uninephrectomy or diabetes. Since insulin per se inhibits cellular autophagy in PTCs, the expected effect of insulin dificiency seems to be counteracted by as yet undefined stimuli that may be related to metabolic work load.

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