Wenqiang Quan, Yann Decker, Qinghua Luo, Axel Chemla, Hsin-Fang Chang, Dong Li, Klaus Fassbender, Yang Liu
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To investigate how NLRP3 regulates pericyte activation and survival, pericytes from the brains of <i>Nlrp3</i> knockout and wild-type mice were cultured, treated with IL-1β and H<sub>2</sub>O<sub>2</sub> at different concentrations and analyzed by confocal microscopy and flow cytometry after staining with fluorescently labelled phalloidin, annexin-V and PDGFRβ antibody.</p><p><strong>Results: </strong>Deficiency of NLRP3 (1) reduced Iba-1, GFAP and AT8 antibody-immunoreactive phosphorylated tau-positive cells, without significantly altering transcription of inflammatory genes, (2) preserved cerebral vasculature and pericyte coverage and up-regulated <i>Osteopontin</i> gene transcription, and (3) improved cognitive function in tau-transgenic mice. In cell culture, NLRP3 deficiency prevented pericyte apoptosis. Treatment with IL-1β or H<sub>2</sub>O<sub>2</sub> increased the expression of PDGFRβ in NLRP3-deficient pericytes, but decreased it in NLRP3 wild-type pericytes in a dose-dependent manner.</p><p><strong>Discussion: </strong>Inhibition of NLRP3 can promote pericyte survival, improve cerebrovascular function, and attenuate AD pathology in the brain of tau-transgenic mice. 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引用次数: 0
摘要
导言:含NLRP3的炎性体负责IL-1β的成熟,在APP和tau转基因小鼠中,NLRP3炎性体的激活已被证明有助于阿尔茨海默病(AD)相关的发病机制。然而,NLRP3对AD的周细胞和随后的脑血管病变的影响仍然未知:方法:通过将人类 P301S tau 转基因小鼠和 Nlrp3 基因敲除小鼠杂交,产生了 NLRP3 缺失型和野生型 AD 动物模型。采用免疫组织学和分子生物学方法研究了与AD相关的神经炎症、tau病变、脑血管和周细胞覆盖。为了研究NLRP3如何调控周细胞的活化和存活,研究人员培养了Nlrp3基因敲除小鼠和野生型小鼠大脑中的周细胞,用不同浓度的IL-1β和H2O2处理,并用荧光标记的类磷脂酰蛋白、annexin-V和PDGFRβ抗体染色后,用共聚焦显微镜和流式细胞术进行分析:结果:NLRP3的缺失(1)减少了Iba-1、GFAP和AT8抗体免疫反应的磷酸化tau阳性细胞,而没有显著改变炎症基因的转录;(2)保护了脑血管和周细胞覆盖,并上调了Osteopontin基因的转录;(3)改善了tau转基因小鼠的认知功能。在细胞培养中,NLRP3 的缺乏可防止周细胞凋亡。用IL-1β或H2O2处理可增加NLRP3缺陷型周细胞中PDGFRβ的表达,但在NLRP3野生型周细胞中,PDGFRβ的表达则以剂量依赖的方式减少:讨论:抑制NLRP3可促进周细胞存活,改善脑血管功能,减轻tau转基因小鼠脑内的AD病理变化。我们的研究支持将 NLRP3 作为阿尔茨海默病患者的新型治疗靶点。
Deficiency of NLRP3 protects cerebral pericytes and attenuates Alzheimer's pathology in tau-transgenic mice.
Introduction: Activation of NLRP3-containing inflammasome, which is responsible for IL-1β maturation, has been shown to contribute to Alzheimer's disease (AD)-associated pathogenesis in both APP- and tau-transgenic mice. However, effects of NLRP3 on pericytes and subsequent cerebrovascular pathology in AD remain unknown.
Methods: NLRP3-deficient and wild-type AD animal models were generated by crossing human P301S tau-transgenic mice and Nlrp3 knockout mice. AD-associated neuroinflammation, tauopathy, vasculature and pericyte coverage in the brain were investigated using immunohistological and molecular biological methods. To investigate how NLRP3 regulates pericyte activation and survival, pericytes from the brains of Nlrp3 knockout and wild-type mice were cultured, treated with IL-1β and H2O2 at different concentrations and analyzed by confocal microscopy and flow cytometry after staining with fluorescently labelled phalloidin, annexin-V and PDGFRβ antibody.
Results: Deficiency of NLRP3 (1) reduced Iba-1, GFAP and AT8 antibody-immunoreactive phosphorylated tau-positive cells, without significantly altering transcription of inflammatory genes, (2) preserved cerebral vasculature and pericyte coverage and up-regulated Osteopontin gene transcription, and (3) improved cognitive function in tau-transgenic mice. In cell culture, NLRP3 deficiency prevented pericyte apoptosis. Treatment with IL-1β or H2O2 increased the expression of PDGFRβ in NLRP3-deficient pericytes, but decreased it in NLRP3 wild-type pericytes in a dose-dependent manner.
Discussion: Inhibition of NLRP3 can promote pericyte survival, improve cerebrovascular function, and attenuate AD pathology in the brain of tau-transgenic mice. Our study supports NLRP3 as a novel therapeutic target for Alzheimer's patients.
期刊介绍:
Frontiers in Cellular Neuroscience is a leading journal in its field, publishing rigorously peer-reviewed research that advances our understanding of the cellular mechanisms underlying cell function in the nervous system across all species. Specialty Chief Editors Egidio D‘Angelo at the University of Pavia and Christian Hansel at the University of Chicago are supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.