BIN1定位不同于阿尔茨海默病中的Tau缠结。

Matters Pub Date : 2017-01-01 Epub Date: 2017-01-12 DOI:10.19185/matters.201611000018
Pierre De Rossi, Virginie Buggia-Prevot, Robert J Andrew, Sofia V Krause, Elizabeth Woo, Peter T Nelson, Peter Pytel, Gopal Thinakaran
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引用次数: 18

摘要

BIN1是通过全基因组关联研究发现的第二大阿尔茨海默病(AD)危险因素基因。BIN1是一种接头蛋白,可以与多种蛋白结合,包括c-Myc、网格蛋白、接头蛋白-2和动力蛋白。BIN1在大脑和外周组织中广泛表达,作为普遍存在的组织特异性选择性剪接异构体,在多种细胞类型中调节膜动力学和内噬作用。BIN1在大脑中的功能以及ad相关的BIN1等位基因增加疾病风险的机制尚不清楚。BIN1已被证明与Tau相互作用,两项研究报道了BIN1的表达与阿尔茨海默病的神经原纤维缠结病理呈正相关。然而,也有报道称BIN1的表达与Tau的繁殖呈负相关。此外,关于BIN1是否存在于缠结中也有相互矛盾的报道。最近的一项研究发现,在啮齿动物和人类大脑的灰质和白质的成熟少突胶质细胞中,BIN1的表达占主导地位。在这里,我们使用免疫组织化学和免疫荧光技术检测了BIN1在AD患者大脑中的定位,分析了BIN1细胞表达与AD细胞标志物和病理病变的关系。我们报道,人AD中的BIN1免疫反应性与神经原纤维缠结或老年斑无关。此外,我们的研究结果表明,在人AD中,静息和激活的小胶质细胞、星形胶质细胞或巨噬细胞不表达BIN1。根据最近的一份报告,在阿尔茨海默病大脑的一部分神经元中可以观察到低水平的新生BIN1表达。进一步的研究是必要的,以了解复杂的细胞机制背后观察到的BIN1表达和AD缠结病理的严重程度之间的相关性。
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BIN1 localization is distinct from Tau tangles in Alzheimer's disease.

BIN1 is the second most significant Alzheimer's disease (AD) risk factor gene identified through genome-wide association studies. BIN1 is an adaptor protein that can bind to several proteins including c-Myc, clathrin, adaptor protein-2 and dynamin. BIN1 is widely expressed in the brain and peripheral tissue as ubiquitous and tissue-specific alternatively spliced isoforms that regulate membrane dynamics and endocytosis in multiple cell types. The function of BIN1 in the brain and the mechanism(s) by which AD-associated BIN1 alleles increase the risk for the disease are not known. BIN1 has been shown to interact with Tau and two studies reported a positive correlation between BIN1 expression and neurofibrillary tangle pathology in AD. However, an inverse correlation between BIN1 expression and Tau propagation has also been reported. Moreover, there have been conflicting reports on whether BIN1 is present in tangles. A recent study characterized predominant BIN1 expression in mature oligodendrocytes in the gray matter and the white matter in rodent, and the human brain. Here, we have examined BIN1 localization in the brains of patients with AD using immunohistochemistry and immunofluorescence techniques to analyze BIN1 cellular expression in relation to cellular markers and pathological lesions in AD. We report that BIN1 immunoreactivity in human AD is not associated with neurofibrillary tangles or senile plaques. Moreover, our results show that BIN1 is not expressed by resting and activated microglia, astrocytes, or macrophages in human AD. In accordance with a recent report, low-level de novo BIN1 expression can be observed in a subset of neurons in the AD brain. Further investigations are warranted to understand the complex cellular mechanisms underlying the observed correlation between BIN1 expression and the severity of tangle pathology in AD.

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