Department for Experimental Pharmacology and Toxicology, University Medical Centre Hamburg-Eppendorf, Hamburg, Germany.
DZHK (German Centre for Cardiovascular Research), Hamburg/Kiel/Lübeck, Germany.
Acta Physiol (Oxf). 2019 May;226(1):e13262. doi: 10.1111/apha.13262. Epub 2019 Feb 18.
Muscarinic acetylcholine receptors (AChMR1-5) are fundamental for cellular responses upon release of the neurotransmitter acetylcholine (ACh) from parasympathetic nerve fibers. ACh is the prototypical agonist stimulating endothelium-dependent dilation, but most blood vessels lack parasympathetic innervation, raising the question as to the physiologic function of endothelial AChMR in vivo. Global deletion of AChM3R revealed a role in ACh-induced vasodilation in vitro and food uptake, but overall cardiovascular homeostasis has not been examined thoroughly.
To characterize the function of endothelial AChM3R in vivo, we deleted AChM3R specifically in endothelial cells with an inducible or a non-inducible Cre-loxP system, driven by the endothelium-specific promoters VE-cadherin (indEC-M3R ) or TIE2 (tek2; EC-M3R ) and examined arteriolar dilation in the cremaster microcirculation, arterial pressure and cardiac function in these mice in vivo.
In both EC-M3R , ACh-induced dilation was strongly impaired in arterioles in vivo, while responses to other dilators were mostly preserved. However, arterial pressure (indEC-M3R ) and arteriolar tone as a surrogate for peripheral vascular resistance did not differ between EC-M3R and control mice. Aged EC-M3R mice (74-78 weeks) did not differ in body weight, heart weight, cardiac structure or contractile function from controls.
We conclude that AChM3R elicits the endothelium-dependent dilation upon ACh also in arterioles in vivo. Despite this prominent role, the endothelial deletion of AChM3R does not affect overall cardiovascular homeostasis. Thus, their physiologic function in endothelial cells remains obscure.
毒蕈碱乙酰胆碱受体(AChMR1-5)是副交感神经纤维释放神经递质乙酰胆碱(ACh)后细胞反应的基础。ACh 是刺激内皮依赖性扩张的典型激动剂,但大多数血管缺乏副交感神经支配,这就提出了内皮 AChMR 在体内的生理功能问题。AChM3R 的全局缺失揭示了其在体外 ACh 诱导的血管扩张和食物摄取中的作用,但整体心血管稳态尚未得到充分研究。
为了研究内皮 AChM3R 在体内的功能,我们使用内皮细胞特异性启动子 VE-cadherin(indEC-M3R)或 TIE2(tek2;EC-M3R)驱动的诱导型或非诱导型 Cre-loxP 系统,特异性删除内皮细胞中的 AChM3R,并在这些小鼠体内研究了隐睾微循环中动脉的扩张、动脉血压和心功能。
在 indEC-M3R 中,ACh 诱导的动脉扩张在体内明显受损,而对其他扩张剂的反应大多保留。然而,动脉血压(indEC-M3R)和作为外周血管阻力替代物的动脉张力在 EC-M3R 和对照小鼠之间没有差异。年龄较大的 EC-M3R 小鼠(74-78 周)在体重、心脏重量、心脏结构或收缩功能方面与对照小鼠无差异。
我们得出结论,AChM3R 在体内也能引起 ACh 诱导的动脉扩张。尽管具有这种突出的作用,但内皮细胞中 AChM3R 的缺失并不影响整体心血管稳态。因此,它们在内皮细胞中的生理功能仍然不清楚。
