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代谢性酸中毒通过激活涉及泛素和蛋白酶体的三磷酸腺苷依赖性途径来刺激肌肉蛋白质降解。

Metabolic acidosis stimulates muscle protein degradation by activating the adenosine triphosphate-dependent pathway involving ubiquitin and proteasomes.

作者信息

Mitch W E, Medina R, Grieber S, May R C, England B K, Price S R, Bailey J L, Goldberg A L

机构信息

Renal Division, Emory University School of Medicine, Atlanta, Georgia 30322.

出版信息

J Clin Invest. 1994 May;93(5):2127-33. doi: 10.1172/JCI117208.

DOI:10.1172/JCI117208
PMID:8182144
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC294343/
Abstract

Metabolic acidosis often leads to loss of body protein due mainly to accelerated protein breakdown in muscle. To identify which proteolytic pathway is activated, we measured protein degradation in incubated epitrochlearis muscles from acidotic (NH4Cl-treated) and pair-fed rats under conditions that block different proteolytic systems. Inhibiting lysosomal and calcium-activated proteases did not reduce the acidosis-induced increase in muscle proteolysis. However, when ATP production was also blocked, proteolysis fell to the same low level in muscles of acidotic and control rats. Acidosis, therefore, stimulates selectively an ATP-dependent, nonlysosomal, proteolytic process. We also examined whether the activated pathway involves ubiquitin and proteasomes (multicatalytic proteinases). Acidosis was associated with a 2.5- to 4-fold increase in ubiquitin mRNA in muscle. There was no increase in muscle heat shock protein 70 mRNA or in kidney ubiquitin mRNA, suggesting specificity of the response. Ubiquitin mRNA in muscle returned to control levels within 24 h after cessation of acidosis. mRNA for subunits of the proteasome (C2 and C3) in muscle were also increased 4-fold and 2.5-fold, respectively, with acidosis; mRNA for cathepsin B did not change. These results are consistent with, but do not prove that acidosis stimulates muscle proteolysis by activating the ATP-ubiquitin-proteasome-dependent, proteolytic pathway.

摘要

代谢性酸中毒常导致机体蛋白质流失,这主要是由于肌肉中蛋白质分解加速所致。为了确定激活了哪种蛋白水解途径,我们在阻断不同蛋白水解系统的条件下,测量了酸中毒(氯化铵处理)大鼠和配对喂养大鼠的孵育肱三头肌中的蛋白质降解情况。抑制溶酶体和钙激活蛋白酶并不能减少酸中毒诱导的肌肉蛋白水解增加。然而,当ATP生成也被阻断时,酸中毒大鼠和对照大鼠肌肉中的蛋白水解降至相同的低水平。因此,酸中毒选择性地刺激了一种依赖ATP的、非溶酶体的蛋白水解过程。我们还研究了激活的途径是否涉及泛素和蛋白酶体(多催化蛋白酶)。酸中毒与肌肉中泛素mRNA增加2.5至4倍有关。肌肉热休克蛋白70 mRNA或肾脏泛素mRNA没有增加,表明反应具有特异性。酸中毒停止后24小时内,肌肉中的泛素mRNA恢复到对照水平。酸中毒时,肌肉中蛋白酶体亚基(C2和C3)的mRNA也分别增加了4倍和2.5倍;组织蛋白酶B的mRNA没有变化。这些结果与酸中毒通过激活依赖ATP-泛素-蛋白酶体的蛋白水解途径刺激肌肉蛋白水解一致,但不能证明这一点。

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