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化学诱导的绝经后小鼠脑小动脉和神经血管功能障碍。

Cerebral arteriolar and neurovascular dysfunction after chemically induced menopause in mice.

机构信息

Department of Physiology, University of Arizona, Tucson, Arizona.

Department of Pharmacology, University of Arizona, Tucson, Arizona.

出版信息

Am J Physiol Heart Circ Physiol. 2022 Nov 1;323(5):H845-H860. doi: 10.1152/ajpheart.00276.2022. Epub 2022 Sep 23.

Abstract

Cognitive decline is linked to decreased cerebral blood flow, particularly in women after menopause. Impaired cerebrovascular function precedes the onset of dementia, possibly because of reduced functional dilation in parenchymal arterioles. These vessels are bottlenecks of the cerebral microcirculation, and dysfunction can limit functional hyperemia in the brain. Large-conductance Ca-activated K channels (BK) are the final effectors of several pathways responsible for functional hyperemia, and their expression is modulated by estrogen. However, it remains unknown whether BK function is altered in cerebral parenchymal arterioles after menopause. Using a chemically induced model of menopause, the 4-vinylcyclohexene diepoxide (VCD) model, which depletes follicles while maintaining intact ovaries, we hypothesized that menopause would be associated with reduced functional vasodilatory responses in cerebral parenchymal arterioles of wild-type mice via reduced BK function. Using pressure myography of isolated parenchymal arterioles, we observed that menopause (Meno) induced a significant increase in spontaneous myogenic tone. Endothelial function, assessed as nitric oxide production and dilation after cholinergic stimulation or endothelium-dependent hyperpolarization pathways, was unaffected by Meno. BK function was significantly impaired in Meno compared with control, without changes in voltage-gated K channel activity. Cerebral functional hyperemia, measured by laser-speckle contrast imaging during whisker stimulation, was significantly blunted in Meno mice, without detectable changes in basal perfusion. However, behavioral testing identified no change in cognition. These findings suggest that menopause induces cerebral microvascular and neurovascular deficits. Cerebral parenchymal arterioles from menopause mice showed increased myogenic tone. We identified an impairment in smooth muscle cell BK channel activity, without a reduction in endothelium-dependent dilation or nitric oxide production. Microvascular dysfunction was associated with a reduction in neurovascular responses after somatosensory stimulation. Despite the neurovascular impairment, cognitive abilities were maintained in menopausal mice.

摘要

认知能力下降与脑血流减少有关,尤其是绝经后女性。脑血管功能障碍先于痴呆症发作,可能是由于实质小动脉功能性扩张减少所致。这些血管是脑微循环的瓶颈,功能障碍会限制大脑的功能性充血。大电导钙激活钾通道(BK)是负责功能性充血的几个途径的最终效应器,其表达受雌激素调节。然而,绝经后大脑实质小动脉中 BK 功能是否改变仍不清楚。我们使用化学诱导的绝经模型,即 4-乙烯基环己烯二氧化物(VCD)模型,该模型耗尽卵泡但保持卵巢完整,假设绝经会通过降低 BK 功能导致野生型小鼠大脑实质小动脉的功能性血管扩张反应减少。我们通过分离的实质小动脉的压力测微法观察到,绝经(Meno)导致自发性肌源性张力显著增加。内皮功能,通过乙酰胆碱刺激或内皮依赖性超极化途径评估一氧化氮产生和扩张,不受 Meno 影响。与对照组相比,Meno 时 BK 功能显著受损,而电压门控 K 通道活性没有变化。通过激光散斑对比成像在胡须刺激期间测量的大脑功能性充血在 Meno 小鼠中明显减弱,而基础灌注没有可检测到的变化。然而,行为测试并未发现认知能力的变化。这些发现表明,绝经会引起大脑微血管和神经血管缺陷。绝经小鼠的大脑实质小动脉显示出增加的肌源性张力。我们发现平滑肌细胞 BK 通道活性受损,而内皮依赖性扩张或一氧化氮产生没有减少。微血管功能障碍与体感刺激后的神经血管反应减少有关。尽管存在神经血管损伤,但绝经小鼠的认知能力仍保持不变。

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