阿尔斯特伦蛋白的突变会损害心肌细胞的终末分化。

Mutations in Alström protein impair terminal differentiation of cardiomyocytes.

作者信息

Shenje Lincoln T, Andersen Peter, Halushka Marc K, Lui Cecillia, Fernandez Laviel, Collin Gayle B, Amat-Alarcon Nuria, Meschino Wendy, Cutz Ernest, Chang Kenneth, Yonescu Raluca, Batista Denise A S, Chen Yan, Chelko Stephen, Crosson Jane E, Scheel Janet, Vricella Luca, Craig Brian D, Marosy Beth A, Mohr David W, Hetrick Kurt N, Romm Jane M, Scott Alan F, Valle David, Naggert Jürgen K, Kwon Chulan, Doheny Kimberly F, Judge Daniel P

机构信息

1] Division of Cardiology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21287, USA [2].

Department of Pathology, Johns Hopkins University School of Medicine, Baltimore, Maryland 21287, USA.

出版信息

Nat Commun. 2014 Mar 4;5:3416. doi: 10.1038/ncomms4416.

DOI:10.1038/ncomms4416

PMID:24595103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3992616/

Abstract

Cardiomyocyte cell division and replication in mammals proceed through embryonic development and abruptly decline soon after birth. The process governing cardiomyocyte cell cycle arrest is poorly understood. Here we carry out whole-exome sequencing in an infant with evidence of persistent postnatal cardiomyocyte replication to determine the genetic risk factors. We identify compound heterozygous ALMS1 mutations in the proband, and confirm their presence in her affected sibling, one copy inherited from each heterozygous parent. Next, we recognize homozygous or compound heterozygous truncating mutations in ALMS1 in four other children with high levels of postnatal cardiomyocyte proliferation. Alms1 mRNA knockdown increases multiple markers of proliferation in cardiomyocytes, the percentage of cardiomyocytes in G2/M phases, and the number of cardiomyocytes by 10% in cultured cells. Homozygous Alms1-mutant mice have increased cardiomyocyte proliferation at 2 weeks postnatal compared with wild-type littermates. We conclude that deficiency of Alström protein impairs postnatal cardiomyocyte cell cycle arrest.

摘要

哺乳动物的心肌细胞分裂和复制在胚胎发育过程中进行，并在出生后不久急剧下降。目前对心肌细胞细胞周期停滞的调控过程了解甚少。在此，我们对一名有出生后心肌细胞持续复制证据的婴儿进行了全外显子组测序，以确定遗传风险因素。我们在先证者中鉴定出复合杂合的ALMS1突变，并在其受影响的同胞中证实了这些突变的存在，每个杂合亲本各遗传了一个拷贝。接下来，我们在另外四名出生后心肌细胞增殖水平较高的儿童中识别出ALMS1的纯合或复合杂合截短突变。在培养细胞中，敲低Alms1 mRNA可增加心肌细胞增殖的多个标志物、G2/M期心肌细胞的百分比，并使心肌细胞数量增加10%。与野生型同窝小鼠相比，纯合Alms1突变小鼠在出生后2周时心肌细胞增殖增加。我们得出结论，阿尔斯特伦蛋白缺乏会损害出生后心肌细胞的细胞周期停滞。

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阿尔斯特伦蛋白的突变会损害心肌细胞的终末分化。

Mutations in Alström protein impair terminal differentiation of cardiomyocytes.

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