αvβ3 整合素信号在调节脑动脉中 Ca2+波和肌源性张力中的意义。

Implications of αvβ3 Integrin Signaling in the Regulation of Ca2+ Waves and Myogenic Tone in Cerebral Arteries.

机构信息

From the Hotchkiss Brain Institute (R.E.M., A.Z., M.S., N.M., S.E.B., D.G.W.), Libin Cardiovascular Institute (R.E.M., A.Z., M.S., N.M., S.E.B., D.G.W.), and Department of Physiology and Pharmacology (R.E.M., A.Z., M.S., N.M., S.E.B., D.G.W.), University of Calgary, Alberta, Canada; and Department of Physiology and Pharmacology, University of Western Ontario, London, Ontario, Canada (A.Z., M.S., N.M., S.E.B., D.G.W.).

出版信息

Arterioscler Thromb Vasc Biol. 2015 Dec;35(12):2571-8. doi: 10.1161/ATVBAHA.115.305619. Epub 2015 Oct 22.

DOI:10.1161/ATVBAHA.115.305619

PMID:26494230

Abstract

OBJECTIVE

The myogenic response is central to blood flow regulation in the brain. Its induction is tied to elevated cytosolic [Ca(2+)], a response primarily driven by voltage-gated Ca(2+) channels and secondarily by Ca(2+) wave production. Although the signaling events leading to the former are well studied, those driving Ca(2+) waves remain uncertain.

APPROACH AND RESULTS

We postulated that αvβ3 integrin signaling is integral to the generation of pressure-induced Ca(2+) waves and cerebral arterial tone. This hypothesis was tested in rat cerebral arteries using the synergistic strengths of pressure myography, rapid Ca(2+) imaging, and Western blot analysis. GRGDSP, a peptide that preferentially blocks αvβ3 integrin, attenuated myogenic tone, indicating the modest role for sarcoplasmic reticulum Ca(2+) release in myogenic tone generation. The RGD peptide was subsequently shown to impair Ca(2+) wave generation and myosin light chain 20 (MLC20) phosphorylation, the latter of which was attributed to the modulation of MLC kinase and MLC phosphatase via MYPT1-T855 phosphorylation. Subsequent experiments revealed that elevated pressure enhanced phospholipase Cγ1 phosphorylation in an RGD-dependent manner and that phospholipase C inhibition attenuated Ca(2+) wave generation. Direct inhibition of inositol 1, 4, 5-triphosphate receptors also impaired Ca(2+) wave generation, myogenic tone, and MLC20 phosphorylation, partly through the T-855 phosphorylation site of MYPT1.

CONCLUSIONS

Our investigation reveals a hitherto unknown role for αvβ3 integrin as a cerebral arterial pressure sensor. The membrane receptor facilitates Ca(2+) wave generation through a signaling cascade, involving phospholipase Cγ1, inositol 1,3,4 triphosphate production, and inositol 1, 4, 5-triphosphate receptor activation. These discrete asynchronous Ca(2+) events facilitate MLC20 phosphorylation and, in part, myogenic tone by influencing both MLC kinase and MLC phosphatase activity.

摘要

目的

肌源性反应是大脑中血液流动调节的核心。其诱导与细胞溶质[Ca(2+)]升高有关，这一反应主要由电压门控 Ca(2+)通道驱动，其次由 Ca(2+)波产生驱动。尽管导致前者的信号事件研究得很好，但那些驱动 Ca(2+)波的事件仍不确定。

方法和结果

我们假设αvβ3 整合素信号对于压力诱导的 Ca(2+)波和脑动脉张力的产生是必不可少的。我们使用压力肌动图、快速 Ca(2+)成像和 Western blot 分析的协同优势，在大鼠脑动脉中测试了这一假说。GRGDSP，一种优先阻断αvβ3 整合素的肽，可减弱肌源性张力，表明肌浆网 Ca(2+)释放在肌源性张力产生中的作用较小。随后，RGD 肽被证明会损害 Ca(2+)波的产生和肌球蛋白轻链 20(MLC20)的磷酸化，后者归因于通过 MYPT1-T855 磷酸化调节肌球蛋白激酶和肌球蛋白磷酸酶。随后的实验表明，升高的压力以依赖于 RGD 的方式增强 PLCγ1 的磷酸化，并且 PLC 抑制减弱了 Ca(2+)波的产生。直接抑制肌醇 1,4,5-三磷酸受体也损害 Ca(2+)波的产生、肌源性张力和 MLC20 的磷酸化，部分通过 MYPT1 的 T-855 磷酸化位点。

结论

我们的研究揭示了αvβ3 整合素作为脑动脉压力传感器的未知作用。该膜受体通过涉及 PLCγ1、三磷酸肌醇产生和三磷酸肌醇受体激活的信号级联促进 Ca(2+)波的产生。这些离散的异步 Ca(2+)事件通过影响肌球蛋白激酶和肌球蛋白磷酸酶的活性，促进 MLC20 的磷酸化，并在一定程度上促进肌源性张力。

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αvβ3 整合素信号在调节脑动脉中 Ca2+波和肌源性张力中的意义。

Implications of αvβ3 Integrin Signaling in the Regulation of Ca2+ Waves and Myogenic Tone in Cerebral Arteries.

机构信息

出版信息

OBJECTIVE

APPROACH AND RESULTS

CONCLUSIONS

目的

方法和结果

结论

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