Department of Physiology, Augusta University, Augusta, Georgia.
Glia. 2019 Mar;67(3):551-565. doi: 10.1002/glia.23564. Epub 2018 Dec 2.
Hypertension is an important contributor to cognitive decline but the underlying mechanisms are unknown. Although much focus has been placed on the effect of hypertension on vascular function, less is understood of its effects on nonvascular cells. Because astrocytes and parenchymal arterioles (PA) form a functional unit (neurovascular unit), we tested the hypothesis that hypertension-induced changes in PA tone concomitantly increases astrocyte Ca . We used cortical brain slices from 8-week-old mice to measure myogenic responses from pressurized and perfused PA. Chronic hypertension was induced in mice by 28-day angiotensin II (Ang II) infusion; PA resting tone and myogenic responses increased significantly. In addition, chronic hypertension significantly increased spontaneous Ca events within astrocyte microdomains (MD). Similarly, a significant increase in astrocyte Ca was observed during PA myogenic responses supporting enhanced vessel-to-astrocyte signaling. The transient potential receptor vanilloid 4 (TRPV4) channel, expressed in astrocyte processes in contact with blood vessels, namely endfeet, respond to hemodynamic stimuli such as increased pressure/flow. Supporting a role for TRPV4 channels in aberrant astrocyte Ca dynamics in hypertension, cortical astrocytes from hypertensive mice showed augmented TRPV4 channel expression, currents and Ca responses to the selective channel agonist GSK1016790A. In addition, pharmacological TRPV4 channel blockade or genetic deletion abrogated enhanced hypertension-induced increases in PA tone. Together, these data suggest chronic hypertension increases PA tone and Ca events within astrocytes MD. We conclude that aberrant Ca events in astrocyte constitute an early event toward the progression of cognitive decline.
高血压是认知能力下降的一个重要因素,但潜在机制尚不清楚。尽管人们非常关注高血压对血管功能的影响,但对其对非血管细胞的影响知之甚少。由于星形胶质细胞和实质小动脉(PA)形成一个功能单元(神经血管单元),我们测试了高血压诱导的 PA 张力变化同时增加星形胶质细胞 Ca 的假设。我们使用来自 8 周龄小鼠的皮质脑切片来测量加压和灌注的 PA 的肌源性反应。通过 28 天血管紧张素 II(Ang II)输注诱导小鼠慢性高血压;PA 静息张力和肌源性反应显著增加。此外,慢性高血压显著增加星形胶质细胞微域(MD)内的自发性 Ca 事件。同样,在 PA 肌源性反应期间观察到星形胶质细胞 Ca 的显著增加,支持增强的血管-星形胶质细胞信号传递。瞬时电位受体香草醛 4(TRPV4)通道在与血管接触的星形胶质细胞突起中表达,即终足,对血流动力学刺激(如压力/流量增加)作出反应。TRPV4 通道在高血压异常星形胶质细胞 Ca 动力学中起作用,支持这一作用,来自高血压小鼠的皮质星形胶质细胞显示出增强的 TRPV4 通道表达、电流和对选择性通道激动剂 GSK1016790A 的 Ca 反应。此外,药理学 TRPV4 通道阻断或基因缺失消除了增强的高血压诱导的 PA 张力增加。总之,这些数据表明慢性高血压增加了 PA 张力和星形胶质细胞 MD 内的 Ca 事件。我们得出结论,星形胶质细胞中异常的 Ca 事件构成了认知能力下降进展的早期事件。
