系统A氨基酸转运受损模拟了酸性环境对L6细胞的分解代谢作用。

Impaired system A amino acid transport mimics the catabolic effects of acid in L6 cells.

作者信息

Bevington A, Brown J, Butler H, Govindji S, M-Khalid K, Sheridan K, Walls J

机构信息

Department of Nephrology, Leicester General Hospital, Leicester, UK.

出版信息

Eur J Clin Invest. 2002 Aug;32(8):590-602. doi: 10.1046/j.1365-2362.2002.01038.x.

DOI:10.1046/j.1365-2362.2002.01038.x

PMID:12190959

Abstract

BACKGROUND

Metabolic acidaemia stimulates protein catabolism in skeletal muscle cells, leading to muscle wasting. As this occurs without decreasing cytosolic pH, the initial signal is unclear. A possible explanation is that extracellular pH acts on solute transporters at the cell surface, inhibiting nutrient influx.

DESIGN

Influx through glucose and Pi transporters and System A amino acid transporters into L6 skeletal muscle cells was assessed using 3H-2-deoxyglucose (2-DG), 33Pi and 14C-methylaminoisobutyrate (MeAIB), respectively. Protein degradation (PD) was assessed from 14C efflux from cells prelabelled with 14C-Phe. Branched-chain amino acids and Phe were assayed by selective fluorimetric assays.

RESULTS

While acid (pH 7.1) had little immediate effect on 2-DG or 33Pi influx, exposure to pH 7.1 rapidly inhibited MeAIB influx. To determine whether System A inhibition was sufficient to trigger PD, it was blocked at pH 7.5 by a saturating dose (10 mmol L(-1)) of nonmetabolisable substrate (MeAIB). Like acid, this increased PD and decreased total protein. It also mimicked the decreases in protein synthesis, DNA synthesis, glucose transport and glycolysis, and depletion of branched-chain amino acids and Phe, which are induced in L6 by acid. The onset of inhibition of PD by an extracellular Gln load was retarded at pH 7.1, and stimulation of PD by acid was negligible if PD had already been stimulated by Gln depletion. The stimulatory effect of MeAIB on PD was selectively blunted by an excess of Gln, whereas the inhibitory effect of Gln on PD was blocked by excess MeAIB.

CONCLUSIONS

The similarity of changes in response to MeAIB and acid implies that these share a common intracellular signalling pathway triggered by inhibition of System A. Even though System A is only a minor contributor to total Gln influx in L6 cells, it is suggested that blockade of System A with acid or MeAIB induces a catabolic state by denying Gln access to a key intracellular regulatory site.

摘要

背景

代谢性酸血症刺激骨骼肌细胞中的蛋白质分解代谢，导致肌肉萎缩。由于这种情况在不降低细胞质pH值的情况下发生，初始信号尚不清楚。一种可能的解释是细胞外pH作用于细胞表面的溶质转运体，抑制营养物质的流入。

设计

分别使用3H-2-脱氧葡萄糖（2-DG）、33Pi和14C-甲基氨基异丁酸（MeAIB）评估通过葡萄糖和磷酸转运体以及A系统氨基酸转运体进入L6骨骼肌细胞的流入情况。从用14C-苯丙氨酸预标记的细胞中14C的流出评估蛋白质降解（PD）。通过选择性荧光测定法测定支链氨基酸和苯丙氨酸。

结果

虽然酸性环境（pH 7.1）对2-DG或33Pi的流入几乎没有即时影响，但暴露于pH 7.1会迅速抑制MeAIB的流入。为了确定A系统的抑制是否足以触发PD，在pH 7.5时用饱和剂量（10 mmol L-¹）的不可代谢底物（MeAIB）将其阻断。与酸性环境一样，这增加了PD并降低了总蛋白。它还模拟了蛋白质合成、DNA合成、葡萄糖转运和糖酵解的减少，以及支链氨基酸和苯丙氨酸的消耗，这些都是酸性环境在L6细胞中诱导产生的。在pH 7.1时，细胞外谷氨酰胺负荷对PD抑制的起始延迟，如果PD已经因谷氨酰胺缺乏而受到刺激，酸性环境对PD的刺激作用则可忽略不计。过量的谷氨酰胺选择性地减弱了MeAIB对PD 的刺激作用，而过量的MeAIB则阻断了谷氨酰胺对PD的抑制作用。

结论

对MeAIB和酸性环境反应变化的相似性表明，它们共享由A系统抑制触发的共同细胞内信号通路。尽管A系统在L6细胞中对总谷氨酰胺流入的贡献很小，但有人提出，用酸性环境或MeAIB阻断A系统会通过阻止谷氨酰胺进入关键的细胞内调节位点而诱导分解代谢状态。

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系统A氨基酸转运受损模拟了酸性环境对L6细胞的分解代谢作用。

Impaired system A amino acid transport mimics the catabolic effects of acid in L6 cells.

作者信息

机构信息

出版信息

BACKGROUND

DESIGN

RESULTS

CONCLUSIONS

背景

设计

结果

结论

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