Pericyte ablation causes hypoactivity and reactive gliosis in adult mice

IF 8.8 2区 医学 Q1 IMMUNOLOGY Brain, Behavior, and Immunity Pub Date : 2024-10-13 DOI:10.1016/j.bbi.2024.10.014
Jake M. Cashion , Lachlan S. Brown , Gary P. Morris , Alastair J. Fortune , Jo-Maree Courtney , Kalina Makowiecki , Dino Premilovac , Carlie L. Cullen , Kaylene M. Young , Brad A. Sutherland
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Abstract

Capillary pericytes are important regulators of cerebral blood flow, blood–brain barrier integrity and neuroinflammation, but can become lost or dysfunctional in disease. The consequences of pericyte loss or dysfunction is extremely difficult to discern when it forms one component of a complex disease process. To evaluate this directly, we examined the effect of adult pericyte loss on mouse voluntary movement and motor function, and physiological responses such as hypoxia, blood–brain barrier (BBB) integrity and glial reactivity. Tamoxifen delivery to Pdgfrβ-CreERT2:: Rosa26-DTA transgenic mice was titrated to produce a dose-dependent ablation of pericytes in vivo. 100mg/kg of tamoxifen ablated approximately half of all brain pericytes, while two consecutive daily doses of 300mg/kg tamoxifen ablated >80% of brain pericytes. In the open field test, mice with ∼50% pericyte loss spent more time immobile and travelled half the distance of control mice. Mice with >80% pericyte ablation also slipped more frequently while performing the beam walk task. Our histopathological analyses of the brain revealed that blood vessel density was unchanged, but vessel lumen width was increased. Pericyte-ablated mice also exhibited: mild BBB disruption; increased neuronal hypoxia; astrogliosis and increased IBA1+ immunoreactivity, suggestive of microgliosis and/or macrophage infiltration. Our results highlight the importance of pericytes in the brain, as pericyte loss can directly compromise brain health and induce behavioural alterations in mice.
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周皮消融会导致成年小鼠活动能力低下和反应性胶质细胞增多。
毛细血管周细胞是脑血流、血脑屏障完整性和神经炎症的重要调节器,但在疾病中会丧失或功能失调。当毛细血管周细胞丢失或功能障碍构成复杂疾病过程的一个组成部分时,其后果就极难辨别。为了直接评估这一问题,我们研究了成年周细胞丢失对小鼠自主运动和运动功能的影响,以及对缺氧、血脑屏障(BBB)完整性和神经胶质反应性等生理反应的影响。对Pdgfrβ-CreERT2:: Rosa26-DTA转基因小鼠进行他莫昔芬给药剂量滴定,以在体内产生剂量依赖性的周细胞消减。100毫克/千克他莫昔芬可消减大约一半的脑周细胞,而连续两次每日剂量为300毫克/千克的他莫昔芬可消减>80%的脑周细胞。在开阔地测试中,周细胞损失达50%的小鼠不动的时间更长,行进距离只有对照组小鼠的一半。周细胞消融>80%的小鼠在完成横梁行走任务时滑倒的频率也更高。我们的脑组织病理学分析表明,血管密度没有变化,但血管腔宽度增加了。细胞周膜缺失的小鼠还表现出:轻度BBB破坏;神经元缺氧增加;星形胶质细胞增多和IBA1+免疫反应性增加,提示小胶质细胞增多和/或巨噬细胞浸润。我们的研究结果突显了脑周细胞的重要性,因为脑周细胞的缺失会直接损害小鼠的大脑健康并诱发行为改变。
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来源期刊
CiteScore
29.60
自引率
2.00%
发文量
290
审稿时长
28 days
期刊介绍: Established in 1987, Brain, Behavior, and Immunity proudly serves as the official journal of the Psychoneuroimmunology Research Society (PNIRS). This pioneering journal is dedicated to publishing peer-reviewed basic, experimental, and clinical studies that explore the intricate interactions among behavioral, neural, endocrine, and immune systems in both humans and animals. As an international and interdisciplinary platform, Brain, Behavior, and Immunity focuses on original research spanning neuroscience, immunology, integrative physiology, behavioral biology, psychiatry, psychology, and clinical medicine. The journal is inclusive of research conducted at various levels, including molecular, cellular, social, and whole organism perspectives. With a commitment to efficiency, the journal facilitates online submission and review, ensuring timely publication of experimental results. Manuscripts typically undergo peer review and are returned to authors within 30 days of submission. It's worth noting that Brain, Behavior, and Immunity, published eight times a year, does not impose submission fees or page charges, fostering an open and accessible platform for scientific discourse.
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