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Runx2/Cbfa1,但不是心肌蛋白缺失,对于平滑肌细胞向成骨软骨分化的谱系重编程是必需的。

Runx2/Cbfa1, but not loss of myocardin, is required for smooth muscle cell lineage reprogramming toward osteochondrogenesis.

机构信息

Department of Bioengineering, University of Washington, Seattle, Washington 98195, USA.

出版信息

J Cell Biochem. 2010 Jul 1;110(4):935-47. doi: 10.1002/jcb.22607.

DOI:10.1002/jcb.22607
PMID:20564193
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2895022/
Abstract

Vascular calcification is a major risk factor for cardiovascular morbidity and mortality. Smooth muscle cells (SMCs) may play an important role in vascular cartilaginous metaplasia and calcification via reprogramming to the osteochondrogenic state. To study whether SM lineage reprogramming and thus matrix calcification is reversible and what the necessary regulatory factors are to reverse this process, we used cells isolated from calcifying arterial medias of 4-week-old matrix Gla protein knockout mice (MGP-/-SMCs). We found that vascular cells with an osteochondrogenic phenotype regained SMC properties (positive for SM22alpha and SM alpha-actin) and down-regulated osteochondrogenic gene expression (Runx2/Cbfa1 and osteopontin) upon culture in medium that favors SMC differentiation. Over time, the MGP-/- SMCs no longer expressed osteochondrogenic proteins and became indistinguishable from wild-type SMCs. Moreover, phenotypic switch of the restored SMCs to the osteochondrogenic state was re-induced by the pro-calcific factor, inorganic phosphate. Finally, loss- and gain-of-function studies of myocardin, a SM-specific transcription co-activator, and Runx2/Cbfa1, an osteochondrogenic transcription factor, revealed that upregulation of Runx2/Cbfa1, but not loss of myocardin, played a critical role in phosphate-induced SMC lineage reprogramming and calcification. These results are the first to demonstrate reversibility of vascular SMCs in the osteochondrogenic state in response to local environmental cues, and that myocardin-enforced SMC lineage allocation was not sufficient to block vascular calcification. On the other hand, Runx2/Cbfa1 was found to be a decisive factor identified in the process.

摘要

血管钙化是心血管发病率和死亡率的一个主要危险因素。平滑肌细胞(SMCs)可能通过重编程为成骨软骨样状态,在血管软骨样化生和钙化中发挥重要作用。为了研究SMC 谱系重编程以及基质钙化是否可逆,以及逆转这一过程所需的调节因子是什么,我们使用了从 4 周龄基质 Gla 蛋白敲除小鼠(MGP-/-SMCs)的钙化动脉中层分离的细胞。我们发现,具有成骨软骨样表型的血管细胞在有利于 SMC 分化的培养基中培养后,恢复了 SMC 特性(SM22alpha 和 SM α-actin 阳性),并下调了成骨软骨基因表达(Runx2/Cbfa1 和骨桥蛋白)。随着时间的推移,MGP-/-SMC 不再表达成骨软骨蛋白,并且与野生型 SMC 无法区分。此外,恢复的 SMCs 向成骨软骨样状态的表型转换可被促钙化因子无机磷重新诱导。最后,肌球蛋白结合蛋白 C 转录共激活因子(myocardin)和成骨软骨转录因子 Runx2/Cbfa1 的缺失和功能获得研究表明,Runx2/Cbfa1 的上调,而不是 myocardin 的缺失,在磷酸盐诱导的 SMC 谱系重编程和钙化中起着关键作用。这些结果首次证明了血管 SMC 在响应局部环境信号时在成骨软骨样状态下的可逆性,并且 myocardin 强制的 SMC 谱系分配不足以阻止血管钙化。另一方面,发现 Runx2/Cbfa1 是该过程中确定的决定性因素。

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