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体内小鼠提睾肌小动脉的血管张力和 Ca(2+)信号转导。

Vascular tone and Ca(2+) signaling in murine cremaster muscle arterioles in vivo.

机构信息

Department of Physiology, School of Medicine, University of Maryland Baltimore, Baltimore, Maryland 21201, USA.

出版信息

Microcirculation. 2013 Apr;20(3):269-77. doi: 10.1111/micc.12025.

DOI:10.1111/micc.12025
PMID:23140521
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4019383/
Abstract

OBJECTIVES

We sought to determine some of the molecular requirements for basal state "tone" of skeletal muscle arterioles in vivo, and whether asynchronous Ca(2+) waves are involved or not.

METHODS

Cremaster muscles of anesthetized exMLCK and smGCaMP2 biosensor mice were exteriorized, and the fluorescent arterioles were visualized with wide-field, confocal or multiphoton microscopy to observe Ca(2+) signaling and arteriolar diameter.

RESULTS

Basal state tone of the arterioles was ~50%. Local block of Ang-II receptors (AT1 ) or α1 -adrenoceptors (α1 -AR) had no effect on diameter, nor did complete block of sympathetic nerve activity (SNA). Inhibition of phospholipase C caused dilation nearly to the Ca(2+) -free (passive) diameter, as did exposure to nifedipine or 2-APB. Arterioles were also dilated when treated with SKF96365. High-resolution imaging of exMLCK fluorescence (ratio) or GCaMP2 fluorescence in smooth muscle cells failed to reveal Ca(2+) waves (although Ca(2+) waves/transients were readily detected by both biosensors in small arteries, ex vivo).

CONCLUSIONS

Arterioles of cremaster muscle have vascular tone of ~ 50%, which is not due to α1 -AR, AT1 R, or SNA. PLC activity, L-type Ca(2+) channels, 2-APB- and SKF96365-sensitive channels are required. Propagating Ca(2+) waves are not present. A key role for PLC and InsP3 R in vascular tone in vivo, other than producing Ca(2+) waves, is suggested.

摘要

目的

我们试图确定体内骨骼肌小动脉基础状态“张力”的一些分子要求,以及是否涉及异步 Ca(2+)波。

方法

麻醉的 exMLCK 和 smGCaMP2 生物传感器小鼠的提睾肌被暴露出来,使用宽场、共聚焦或多光子显微镜可视化荧光小动脉,以观察 Ca(2+)信号和小动脉直径。

结果

小动脉的基础状态张力约为 50%。局部阻断血管紧张素 II 受体 (AT1) 或 α1-肾上腺素能受体 (α1-AR) 对直径没有影响,也没有完全阻断交感神经活动 (SNA)。抑制磷脂酶 C 导致几乎达到 Ca(2+) 自由(被动)直径的扩张,如使用硝苯地平或 2-APB 一样。用 SKF96365 处理也会导致小动脉扩张。 exMLCK 荧光(比率)或平滑肌细胞 GCaMP2 荧光的高分辨率成像未能显示 Ca(2+) 波(尽管两种生物传感器在小动脉中都很容易检测到 Ca(2+) 波/瞬变,在体外)。

结论

提睾肌小动脉的血管张力约为 50%,这不是由于 α1-AR、AT1 R 或 SNA 引起的。需要 PLC 活性、L 型 Ca(2+) 通道、2-APB 和 SKF96365 敏感通道。没有传播的 Ca(2+) 波。提示 PLC 和 InsP3 R 在体内血管张力中除了产生 Ca(2+) 波外还有重要作用。

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