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J Neurochem. 2019 May;149(4):438-451. doi: 10.1111/jnc.14615. Epub 2018 Nov 26.
2
TSPO and amyloid deposits in sub-regions of the hippocampus in the 3xTgAD mouse model of Alzheimer's disease.阿尔茨海默病 3xTgAD 小鼠模型中海马亚区的 TSPO 和淀粉样沉积。
Neurobiol Dis. 2019 Jan;121:95-105. doi: 10.1016/j.nbd.2018.09.022. Epub 2018 Sep 24.
3
Cellular Sources and Regional Variations in the Expression of the Neuroinflammatory Marker Translocator Protein (TSPO) in the Normal Brain.正常脑中神经炎症标志物外周膜蛋白(TSPO)的细胞来源和区域差异。
Int J Mol Sci. 2018 Sep 11;19(9):2707. doi: 10.3390/ijms19092707.
4
The Biology of Glial Cells and Their Complex Roles in Alzheimer's Disease: New Opportunities in Therapy.胶质细胞的生物学及其在阿尔茨海默病中的复杂作用:治疗的新机遇。
Biomolecules. 2018 Sep 10;8(3):93. doi: 10.3390/biom8030093.
5
TSPO in diverse CNS pathologies and psychiatric disease: A critical review and a way forward.TSPO 在多种中枢神经系统疾病和精神疾病中的作用:批判性评价与未来方向。
Pharmacol Ther. 2019 Feb;194:44-58. doi: 10.1016/j.pharmthera.2018.09.003. Epub 2018 Sep 4.
6
Positron Emission Tomography Studies of the Glial Cell Marker Translocator Protein in Patients With Psychosis: A Meta-analysis Using Individual Participant Data.正电子发射断层扫描研究精神病患者神经胶质细胞标记物 Translocator 蛋白:使用个体参与者数据的荟萃分析。
Biol Psychiatry. 2018 Sep 15;84(6):433-442. doi: 10.1016/j.biopsych.2018.02.1171. Epub 2018 Mar 6.
7
Brain Region-dependent Heterogeneity and Dose-dependent Difference in Transient Microglia Population Increase during Lipopolysaccharide-induced Inflammation.脂多糖诱导的炎症过程中,短暂性小胶质细胞群体增加具有脑区依赖性和剂量依赖性差异。
Sci Rep. 2018 Feb 2;8(1):2203. doi: 10.1038/s41598-018-20643-3.
8
Involvement of Astrocytes in Alzheimer's Disease from a Neuroinflammatory and Oxidative Stress Perspective.从神经炎症和氧化应激角度看星形胶质细胞在阿尔茨海默病中的作用
Front Mol Neurosci. 2017 Dec 19;10:427. doi: 10.3389/fnmol.2017.00427. eCollection 2017.
9
Microglia and Brain Plasticity in Acute Psychosis and Schizophrenia Illness Course: A Meta-Review.急性精神病和精神分裂症病程中的小胶质细胞与脑可塑性:一项元综述
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10
Longitudinal investigation of neuroinflammation and metabolite profiles in the APP ×PS1 transgenic mouse model of Alzheimer's disease.阿尔茨海默病 APP×PS1 转基因小鼠模型中神经炎症和代谢物特征的纵向研究。
J Neurochem. 2018 Feb;144(3):318-335. doi: 10.1111/jnc.14251. Epub 2017 Dec 15.

荧光激活细胞分选揭示放射性配体结合的细胞起源。

Fluorescence-activated cell sorting to reveal the cell origin of radioligand binding.

机构信息

Division of Adult Psychiatry, Department of Psychiatry, University Hospitals of Geneva, Geneva, Switzerland.

Division of Nuclear medicine, University Hospitals of Geneva, Geneva, Switzerland.

出版信息

J Cereb Blood Flow Metab. 2020 Jun;40(6):1242-1255. doi: 10.1177/0271678X19860408. Epub 2019 Jun 26.

DOI:10.1177/0271678X19860408
PMID:31242048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7238369/
Abstract

Many studies have explored the role of TSPO (18 kDa translocator protein) as a marker of neuroinflammation using single-photon emission computed tomography (SPECT) or positron emission tomography (PET). In vivo imaging does not allow to determine the cells in which TSPO is altered. We propose a methodology based on fluorescence-activated cell sorting to sort different cell types of radioligand-treated tissues. We compared left/right hippocampus of rats in response to a unilateral injection of lipopolysaccharide (LPS), ciliary neurotrophic factor (CNTF) or saline. We finally applied this methodology in human samples (Alzheimer's disease patients and controls). Our data show that the pattern of TSPO overexpression differs across animal models of acute neuroinflammation. LPS induces a microglial expansion and an increase in microglial TSPO binding. CNTF is associated with an increase in TSPO binding in microglia and astrocytes in association with an increase in the number of microglial binding sites per cell. In humans, we show that the increase in CLINDE binding in Alzheimer's disease concerns microglia and astrocytes in the presence of a microglial expansion. Thus, the cellular basis of TSPO overexpression is condition dependent, and alterations in TSPO binding found in PET/SPECT imaging studies cannot be attributed to particular cell types indiscriminately.

摘要

许多研究已经探索了 TSPO(18 kDa 转位蛋白)作为神经炎症标志物的作用,使用单光子发射计算机断层扫描(SPECT)或正电子发射断层扫描(PET)。体内成像无法确定 TSPO 改变的细胞。我们提出了一种基于荧光激活细胞分选的方法,用于对放射性配体处理组织中的不同细胞类型进行分选。我们比较了 LPS(脂多糖)、睫状神经营养因子(CNTF)或盐水单侧注射后大鼠左/右海马的情况。我们最终将这种方法应用于人类样本(阿尔茨海默病患者和对照组)。我们的数据表明,TSPO 过表达的模式在急性神经炎症的动物模型中有所不同。LPS 诱导小胶质细胞扩张和小胶质细胞 TSPO 结合增加。CNTF 与小胶质细胞和星形胶质细胞中 TSPO 结合增加以及每个细胞中小胶质细胞结合位点数量增加有关。在人类中,我们表明,在存在小胶质细胞扩张的情况下,阿尔茨海默病中 CLINDE 结合的增加涉及小胶质细胞和星形胶质细胞。因此,TSPO 过表达的细胞基础取决于条件,并且在 PET/SPECT 成像研究中发现的 TSPO 结合的改变不能不加区别地归因于特定的细胞类型。