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血清反应因子在心血管系统中的限制性失活。

Restricted inactivation of serum response factor to the cardiovascular system.

作者信息

Miano Joseph M, Ramanan Narendrakumar, Georger Mary A, de Mesy Bentley Karen L, Emerson Rachael L, Balza Robert O, Xiao Qi, Weiler Hartmut, Ginty David D, Misra Ravi P

机构信息

Center for Cardiovascular Research, Aab Institute of Biomedical Sciences, University of Rochester, 601 Elmwood Avenue, Rochester, NY 14642, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Dec 7;101(49):17132-7. doi: 10.1073/pnas.0406041101. Epub 2004 Nov 29.

DOI:10.1073/pnas.0406041101
PMID:15569937
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC535359/
Abstract

Serum response factor (SRF) directs programs of gene expression linked to growth and muscle differentiation. To investigate the role of SRF in cardiovascular development, we generated mice in which SRF is knocked out in >80% of cardiomyocytes and >50% of vascular smooth muscle cells (SMC) through SM22alpha-Cre-mediated excision of SRF's promoter and first exon. Mutant mice display vascular patterning, cardiac looping, and SRF-dependent gene expression through embryonic day (e)9.5. At e10.5, attenuation in cardiac trabeculation and compact layer expansion is noted, with an attendant decrease in vascular SMC recruitment to the dorsal aorta. Ultrastructurally, cardiac sarcomeres and Z disks are highly disorganized in mutant embryos. Moreover, SRF mutant mice exhibit vascular SMC lacking organizing actin/intermediate filament bundles. These structural defects in the heart and vasculature coincide with decreases in SRF-dependent gene expression, such that by e11.5, when mutant embryos succumb to death, no SRF-dependent mRNA expression is evident. These results suggest a vital role for SRF in contractile/cytoskeletal architecture necessary for the proper assembly and function of cardiomyocytes and vascular SMC.

摘要

血清反应因子(SRF)指导与生长和肌肉分化相关的基因表达程序。为了研究SRF在心血管发育中的作用,我们通过SM22α-Cre介导的SRF启动子和第一个外显子的切除,生成了在超过80%的心肌细胞和超过50%的血管平滑肌细胞(SMC)中SRF被敲除的小鼠。突变小鼠在胚胎期第9.5天(e9.5)表现出血管模式形成、心脏环化以及SRF依赖性基因表达。在e10.5时,观察到心脏小梁形成和致密层扩展减弱,同时背主动脉的血管SMC募集减少。在超微结构上,突变胚胎中的心肌肌节和Z盘高度紊乱。此外,SRF突变小鼠表现出缺乏组织化肌动蛋白/中间丝束的血管SMC。心脏和血管中的这些结构缺陷与SRF依赖性基因表达的降低相一致,以至于到e11.5时,当突变胚胎死亡时,没有明显的SRF依赖性mRNA表达。这些结果表明SRF在心肌细胞和血管SMC正常组装和功能所必需的收缩/细胞骨架结构中起着至关重要作用。

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