Hypertension promotes neuroinflammation, brain injury and cognitive impairment

IF 3.7 Q2 IMMUNOLOGY

Brain, behavior, & immunity - health Pub Date : 2025-07-10 DOI:10.1016/j.bbih.2025.101059

Quynh Nhu Dinh , Antony Vinh , Cecilia Lo , David E. Wong Zhang , Hericka Bruna Figueiredo Galvao , Sharmelee Selvaraji , Hyun Ah Kim , Sophocles Chrissobolis , Thiruma V. Arumugam , Grant R. Drummond , Christopher G. Sobey , T. Michael De Silva

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Abstract

Background

Hypertension increases the risk for cognitive impairment and promotes vascular and renal inflammation. We tested if immune cell infiltration occurs in the brain during hypertension and if it is associated with cognitive impairment.

Methods

Male C57Bl/6 mice were administered vehicle, angiotensin II (0.7 mg/kg/d S.C.) or aldosterone (0.72 mg/kg/d S.C.) via osmotic minipumps. A subset of mice also received hydralazine (50 mg/kg) in their drinking water after minipump implantation. We measured systolic blood pressure, markers of inflammation, working memory and transcriptomic changes in the brain.

Results

Administration of angiotensin II or aldosterone increased blood pressure and promoted blood-brain barrier dysfunction, leukocyte accumulation and impairment of working memory in mice. When co-administered with angiotensin II, hydralazine prevented the development of these changes. In a separate cohort of mice in which angiotensin II-induced changes were first established, intervention with hydralazine lowered blood pressure but did not reverse brain inflammation or cognitive impairment. Finally, angiotensin II infusion altered the transcriptomic profile of the whole brain, as well as specifically within the hippocampus, and co-treatment with hydralazine modulated these changes.

Conclusions

Experimental hypertension leads to brain inflammation and was associated with impaired working memory. Cognitive impairment that develops during hypertension can be inhibited, but not readily reversed, by anti-hypertensive therapy.

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高血压会促进神经炎症、脑损伤和认知障碍

背景：高血压增加认知障碍的风险，促进血管和肾脏炎症。我们测试了高血压期间大脑中是否发生免疫细胞浸润，以及它是否与认知障碍有关。方法C57Bl/6小鼠通过渗透微型泵分别给药、血管紧张素II （0.7 mg/kg/d S.C.）或醛固酮（0.72 mg/kg/d S.C.）。一小部分小鼠在微型泵植入后的饮用水中也加入了羟嗪（50 mg/kg）。我们测量了收缩压、炎症标志物、工作记忆和大脑转录组变化。结果血管紧张素或醛固酮使小鼠血压升高，促进血脑屏障功能障碍、白细胞积累和工作记忆损伤。当与血管紧张素II合用时，肼嗪可阻止这些变化的发生。在一个单独的小鼠队列中，首次建立了血管紧张素ii诱导的变化，用肼嗪干预降低了血压，但没有逆转脑部炎症或认知障碍。最后，血管紧张素II输注改变了整个大脑的转录组谱，特别是在海马体内，与肼嗪共同治疗可调节这些变化。结论实验性高血压可引起脑炎症，并与工作记忆受损有关。高血压期间发生的认知障碍可以通过抗高血压治疗得到抑制，但不易逆转。

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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