通过平滑肌细丝蛋白A实现的动脉肌源性激活。

Arterial Myogenic Activation through Smooth Muscle Filamin A.

作者信息

Retailleau Kevin, Arhatte Malika, Demolombe Sophie, Peyronnet Rémi, Baudrie Véronique, Jodar Martine, Bourreau Jennifer, Henrion Daniel, Offermanns Stefan, Nakamura Fumihiko, Feng Yuanyi, Patel Amanda, Duprat Fabrice, Honoré Eric

机构信息

Institut de Pharmacologie Moléculaire et Cellulaire, LabEx ICST, UMR 7275 CNRS, Université de Nice Sophia Antipolis, 06560 Valbonne, France.

INSERM U970, PARCC-Université Paris Descartes-Hôpital Européen Georges Pompidou, AP-HP, 75015 Paris, France.

出版信息

Cell Rep. 2016 Mar 8;14(9):2050-2058. doi: 10.1016/j.celrep.2016.02.019. Epub 2016 Feb 25.

DOI:10.1016/j.celrep.2016.02.019

PMID:26923587

Abstract

Mutations in the filamin A (FlnA) gene are frequently associated with severe arterial abnormalities, although the physiological role for this cytoskeletal element remains poorly understood in vascular cells. We used a conditional mouse model to selectively delete FlnA in smooth muscle (sm) cells at the adult stage, thus avoiding the developmental effects of the knockout. Basal blood pressure was significantly reduced in conscious smFlnA knockout mice. Remarkably, pressure-dependent tone of the resistance caudal artery was lost, whereas reactivity to vasoconstrictors was preserved. Impairment of the myogenic behavior was correlated with a lack of calcium influx in arterial myocytes upon an increase in intraluminal pressure. Notably, the stretch activation of CaV1.2 was blunted in the absence of smFlnA. In conclusion, FlnA is a critical upstream element of the signaling cascade underlying the myogenic tone. These findings allow a better understanding of the molecular basis of arterial autoregulation and associated disease states.

摘要

丝状肌动蛋白A（FlnA）基因的突变常与严重的动脉异常有关，尽管这种细胞骨架成分在血管细胞中的生理作用仍知之甚少。我们使用条件性小鼠模型在成年阶段选择性地删除平滑肌（sm）细胞中的FlnA，从而避免基因敲除的发育影响。清醒的smFlnA基因敲除小鼠的基础血压显著降低。值得注意的是，阻力尾动脉的压力依赖性张力丧失，而对血管收缩剂的反应性得以保留。肌源性行为的受损与管腔内压力升高时动脉肌细胞中钙内流的缺乏相关。值得注意的是，在没有smFlnA的情况下，CaV1.2的拉伸激活减弱。总之，FlnA是肌源性张力信号级联的关键上游元件。这些发现有助于更好地理解动脉自身调节和相关疾病状态的分子基础。

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通过平滑肌细丝蛋白A实现的动脉肌源性激活。

Arterial Myogenic Activation through Smooth Muscle Filamin A.

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