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培养的新生大鼠心室肌细胞对短期流体剪切力的变时反应。

Chronotropic response of cultured neonatal rat ventricular myocytes to short-term fluid shear.

作者信息

Lorenzen-Schmidt Ilka, Schmid-Schönbein Geert W, Giles Wayne R, McCulloch Andrew D, Chien Shu, Omens Jeffrey H

机构信息

Department of Medicine, University of California, San Diego, 9500 Gilman Drive, La Jolla, CA 92093-0613, USA.

出版信息

Cell Biochem Biophys. 2006;46(2):113-22. doi: 10.1385/CBB:46:2:113.

DOI:10.1385/CBB:46:2:113
PMID:17012753
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3310206/
Abstract

Ventricular myocytes are continuously exposed to fluid shear in vivo by relative movement of laminar sheets and adjacent cells. Preliminary observations have shown that neonatal myocytes respond to fluid shear by increasing their beating rate, which could have an arrhythmogenic effect under elevated shear conditions. The objective of this study is to investigate the characteristics of the fluid shear response in cultured myocytes and to study selected potential mechanisms. Cultured neonatal rat ventricular myocytes that were spontaneously beating were subjected to low shear rates (5-50/s) in a fluid flow chamber using standard culture medium. The beating rate was measured from digital microscopic recordings. The myocytes reacted to low shear rates by a graded and reversible increase in their spontaneous beating rate of up to 500%. The response to shear was substantially attenuated in the presence of the beta-adrenergic agonist isoproterenol (by 86+/-8%), as well as after incubation with integrin-blocking RGD peptides (by 92+/-8%). The results suggest that the beta-adrenergic signaling pathway and integrin activation, which are known to interact, may play an important role in the response mechanism.

摘要

在体内,心室肌细胞通过层流片层和相邻细胞的相对运动持续受到流体剪切力作用。初步观察表明,新生心肌细胞会通过提高其搏动频率来响应流体剪切力,在剪切力升高的情况下这可能会产生致心律失常的作用。本研究的目的是探究培养的心肌细胞中流体剪切力响应的特征,并研究某些潜在机制。使用标准培养基,将自发搏动的培养新生大鼠心室肌细胞置于流体流动腔室中,使其受到低剪切速率(5 - 50/秒)作用。通过数字显微镜记录来测量搏动频率。心肌细胞对低剪切速率的反应是其自发搏动频率呈分级且可逆的增加,增幅高达500%。在存在β - 肾上腺素能激动剂异丙肾上腺素的情况下(降低86±8%)以及与整合素阻断性RGD肽孵育后(降低92±8%),对剪切力的反应显著减弱。结果表明,已知相互作用的β - 肾上腺素能信号通路和整合素激活可能在反应机制中起重要作用。

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