PPP1R3A基因中的一种常见变异会损害糖原合成，并降低人类和小鼠的肌肉糖原含量。

A prevalent variant in PPP1R3A impairs glycogen synthesis and reduces muscle glycogen content in humans and mice.

作者信息

Savage David B, Zhai Lanmin, Ravikumar Balasubramanian, Choi Cheol Soo, Snaar Johanna E, McGuire Amanda C, Wou Sung-Eun, Medina-Gomez Gemma, Kim Sheene, Bock Cheryl B, Segvich Dyann M, Solanky Bhavana, Deelchand Dinesh, Vidal-Puig Antonio, Wareham Nicholas J, Shulman Gerald I, Karpe Fredrik, Taylor Roy, Pederson Bartholomew A, Roach Peter J, O'Rahilly Stephen, DePaoli-Roach Anna A

机构信息

Department of Clinical Biochemistry and Medicine, University of Cambridge, Cambridge, United Kingdom.

出版信息

PLoS Med. 2008 Jan 29;5(1):e27. doi: 10.1371/journal.pmed.0050027.

DOI:10.1371/journal.pmed.0050027

PMID:18232732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2214798/

Abstract

BACKGROUND

Stored glycogen is an important source of energy for skeletal muscle. Human genetic disorders primarily affecting skeletal muscle glycogen turnover are well-recognised, but rare. We previously reported that a frameshift/premature stop mutation in PPP1R3A, the gene encoding RGL, a key regulator of muscle glycogen metabolism, was present in 1.36% of participants from a population of white individuals in the UK. However, the functional implications of the mutation were not known. The objective of this study was to characterise the molecular and physiological consequences of this genetic variant.

METHODS AND FINDINGS

In this study we found a similar prevalence of the variant in an independent UK white population of 744 participants (1.46%) and, using in vivo (13)C magnetic resonance spectroscopy studies, demonstrate that human carriers (n = 6) of the variant have low basal (65% lower, p = 0.002) and postprandial muscle glycogen levels. Mice engineered to express the equivalent mutation had similarly decreased muscle glycogen levels (40% lower in heterozygous knock-in mice, p < 0.05). In muscle tissue from these mice, failure of the truncated mutant to bind glycogen and colocalize with glycogen synthase (GS) decreased GS and increased glycogen phosphorylase activity states, which account for the decreased glycogen content.

CONCLUSIONS

Thus, PPP1R3A C1984DeltaAG (stop codon 668) is, to our knowledge, the first prevalent mutation described that directly impairs glycogen synthesis and decreases glycogen levels in human skeletal muscle. The fact that it is present in approximately 1 in 70 UK whites increases the potential biomedical relevance of these observations.

摘要

背景

储存的糖原是骨骼肌的重要能量来源。主要影响骨骼肌糖原代谢转换的人类遗传疾病已得到充分认识，但较为罕见。我们之前报道，在英国白人群体中，1.36%的参与者存在PPP1R3A基因的移码/过早终止突变，该基因编码RGL，是肌肉糖原代谢的关键调节因子。然而，该突变的功能影响尚不清楚。本研究的目的是描述这种基因变异的分子和生理后果。

方法与发现

在本研究中，我们在一个由744名参与者组成的独立英国白人人群中发现了类似的变异流行率（1.46%），并通过体内¹³C磁共振波谱研究表明，该变异的人类携带者（n = 6）基础状态下（低65%，p = 0.002）和餐后肌肉糖原水平较低。经基因工程改造以表达等效突变的小鼠，其肌肉糖原水平同样降低（杂合敲入小鼠中降低40%，p < 0.05）。在这些小鼠的肌肉组织中，截短的突变体无法与糖原结合并与糖原合酶（GS）共定位，导致GS减少，糖原磷酸化酶活性状态增加，这解释了糖原含量的降低。

结论

因此，据我们所知，PPP1R3A C1984DeltaAG（终止密码子668）是所描述的第一个直接损害糖原合成并降低人类骨骼肌糖原水平的常见突变。它在大约每70名英国白人中就有1人存在这一事实，增加了这些观察结果在生物医学方面的潜在相关性。

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PPP1R3A基因中的一种常见变异会损害糖原合成，并降低人类和小鼠的肌肉糖原含量。

A prevalent variant in PPP1R3A impairs glycogen synthesis and reduces muscle glycogen content in humans and mice.

作者信息

机构信息

Department of Clinical Biochemistry and Medicine, University of Cambridge, Cambridge, United Kingdom.

出版信息

PLoS Med. 2008 Jan 29;5(1):e27. doi: 10.1371/journal.pmed.0050027.

DOI:10.1371/journal.pmed.0050027

PMID:18232732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2214798/

Abstract

BACKGROUND

METHODS AND FINDINGS

CONCLUSIONS

摘要

PPP1R3A基因中的一种常见变异会损害糖原合成，并降低人类和小鼠的肌肉糖原含量。

A prevalent variant in PPP1R3A impairs glycogen synthesis and reduces muscle glycogen content in humans and mice.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND FINDINGS

CONCLUSIONS

背景

方法与发现

结论

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PPP1R3A基因中的一种常见变异会损害糖原合成，并降低人类和小鼠的肌肉糖原含量。

A prevalent variant in PPP1R3A impairs glycogen synthesis and reduces muscle glycogen content in humans and mice.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND FINDINGS

CONCLUSIONS

背景

方法与发现

结论

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