Dynamic Neuro-Glial-Vascular Responses in a Mouse Model of Vascular Cognitive Impairment.

Neuroglia (Basel, Switzerland) Pub Date : 2024-12-01 Epub Date: 2024-12-19 DOI:10.3390/neuroglia5040032

Ki Jung Kim, Rachel E Patterson, Juan Ramiro Diaz, Philip O'Herron, Weston Bush, Ferdinand Althammer, Javier E Stern, Michael W Brands, Zsolt Bagi, Jessica A Filosa

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Abstract

Background: Chronic hypoperfusion is a risk factor for neurodegenerative diseases. However, the sequence of events driving ischemia-induced functional changes in a cell-specific manner is unclear.

Methods: To address this gap in knowledge, we used the bilateral common carotid artery stenosis (BCAS) mouse model, and evaluated progressive functional changes to neurons, arterioles, astrocytes, and microglial cells at 14 and 28 days post-BCAS surgery. To assess the neuro-glio-vascular response to an acute ischemic insult, brain slices were superfused with low O₂ conditions. Using whole-cell patch-clamp electrophysiology, we measured basic membrane properties (e.g., resting membrane potential, capacitance, input resistance) in cortical pyramidal neurons. The activity of astrocytes was evaluated by monitoring Ca²⁺ from Aldh1l1-CreERT2; R26-lsl-GCaMP6f mice. Vascular reactivity to low O₂ from the BCAS mice was also assessed ex vivo.

Results: Our data showed no changes to the basic membrane properties of cortical pyramidal neurons. On the other hand, astrocyte activity was characterized by a progressive increase in the resting Ca²⁺. Notably, at 14 and 28 days post-BCAS, there was an increased expression of anti-inflammatory-related markers (IL-10, S100A10, TRPA1, and Nrf2). These data suggest that, in young mice, BCAS-induced increases in resting Ca²⁺ were associated with the expression of neuroprotective signals. Contrary to observations in glial cells, vascular function was impaired post-BCAS surgery, as shown by a blunted vasodilatory response to low O₂ and the vasodilatory signal, adenosine.

Conclusions: Together, these data suggest that, in young mice, BCAS leads to vascular dysfunction (e.g., impaired vasodilation in parenchymal arterioles), and in the absence of neuronal dysfunction, mild ischemia is associated with the activation of glial-derived neuroprotective signals.

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血管性认知障碍小鼠模型的动态神经胶质血管反应。

背景：慢性灌注不足是神经退行性疾病的危险因素。然而，以细胞特异性方式驱动缺血诱导的功能改变的事件顺序尚不清楚。方法：为了解决这一知识空白，我们使用双侧颈总动脉狭窄（BCAS）小鼠模型，并在BCAS手术后14天和28天评估神经元、小动脉、星形胶质细胞和小胶质细胞的进行性功能变化。为了评估神经胶质血管对急性缺血损伤的反应，在低氧条件下进行脑切片。利用全细胞膜片钳电生理学，我们测量了皮层锥体神经元的基本膜特性（如静息膜电位、电容、输入电阻）。通过监测Aldh1l1-CreERT2中的Ca2+来评估星形胶质细胞的活性；R26-lsl-GCaMP6f老鼠。血管对来自BCAS小鼠的低氧反应性也进行了体外评估。结果：我们的数据显示皮质锥体神经元的基本膜性质没有改变。另一方面，星形胶质细胞活性的特征是静息Ca2+的逐渐增加。值得注意的是，在bcas后14天和28天，抗炎相关标志物（IL-10、S100A10、TRPA1和Nrf2）的表达增加。这些数据表明，在年轻小鼠中，bcas诱导的静息Ca2+的增加与神经保护信号的表达有关。与在神经胶质细胞中观察到的结果相反，bcas手术后血管功能受损，表现为对低氧和血管舒张信号腺苷的血管舒张反应减弱。结论：综上所述，这些数据表明，在年轻小鼠中，BCAS导致血管功能障碍（例如，实质小动脉血管舒张受损），并且在没有神经元功能障碍的情况下，轻度缺血与胶质源性神经保护信号的激活有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Neuroglia (Basel, Switzerland)

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