Paul C R Hopkins, Claire Troakes, Andrew King, Guy Tear
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In late onset AD cases stratified by APOE genotype, TMCC2 immunoreactivity was associated with dense core senile plaques and adjacent neuronal dystrophies, but not with Aβ surrounding the core, diffuse Aβ plaques or tauopathy. In Down syndrome AD, we observed in addition TMCC2-immunoreactive and methoxy-X04-positive pathological features that were morphologically distinct from those seen in the late onset and familial AD cases, suggesting enhanced pathological alteration of TMCC2 in Down syndrome AD. At the protein level, western blots of human brain extracts revealed that human brain-derived TMCC2 exists as at least three isoforms, the relative abundance of which varied between the temporal gyrus and cerebellum and was influenced by APOE and/or dementia status. 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引用次数: 0
摘要
跨膜和盘卷2(TMCC2)是果蝇基因Dementin的人类直系同源物,其突变等位基因会导致具有阿尔茨海默病(AD)特征的神经变性。TMCC2和Dementin还与淀粉样蛋白前体(APP)有进化上一致的相互作用,APP是导致阿尔茨海默病发病的核心蛋白。为了研究人类 TMCC2 是否也可能参与神经退行性变的机制,我们检测了 TMCC2 在晚发性 AD 人脑和年龄匹配的对照组、APP Val717 突变的家族性 AD 病例以及唐氏综合征 AD 中的表达。与之前在大鼠大脑中观察到的 TMCC2 和 APP 之间形成复合物的情况一致,对照组人类颞叶皮层的双重免疫细胞化学显示 TMCC2 和 APP 的分布高度相似。在按 APOE 基因型分层的晚发性注意力缺失症病例中,TMCC2 免疫反应与致密的核心衰老斑块和邻近的神经元萎缩有关,但与核心周围的 Aβ、弥漫性 Aβ 斑块或 tauopathy 无关。在唐氏综合征AD中,我们还观察到了TMCC2-免疫反应性和甲氧基-X04阳性病理特征,这些病理特征在形态上与晚发性和家族性AD病例中的病理特征不同,这表明唐氏综合征AD中TMCC2的病理改变增强。在蛋白质水平上,人脑提取物的Western印迹显示,人脑来源的TMCC2至少存在三种同工酶,其相对丰度在颞回和小脑之间存在差异,并受APOE和/或痴呆状态的影响。因此,我们的研究结果表明,人类TMCC2通过与APP的相互作用、与致密核心斑块的关联以及在唐氏综合征AD中的改变与AD有关。
Transmembrane and coiled-coil 2 associates with Alzheimer's disease pathology in the human brain.
Transmembrane and coiled-coil 2 (TMCC2) is a human orthologue of the Drosophila gene dementin, mutant alleles of which cause neurodegeneration with features of Alzheimer's disease (AD). TMCC2 and Dementin further have an evolutionarily conserved interaction with the amyloid protein precursor (APP), a protein central to AD pathogenesis. To investigate if human TMCC2 might also participate in mechanisms of neurodegeneration, we examined TMCC2 expression in late onset AD human brain and age-matched controls, familial AD cases bearing a mutation in APP Val717, and Down syndrome AD. Consistent with previous observations of complex formation between TMCC2 and APP in the rat brain, the dual immunocytochemistry of control human temporal cortex showed highly similar distributions of TMCC2 and APP. In late onset AD cases stratified by APOE genotype, TMCC2 immunoreactivity was associated with dense core senile plaques and adjacent neuronal dystrophies, but not with Aβ surrounding the core, diffuse Aβ plaques or tauopathy. In Down syndrome AD, we observed in addition TMCC2-immunoreactive and methoxy-X04-positive pathological features that were morphologically distinct from those seen in the late onset and familial AD cases, suggesting enhanced pathological alteration of TMCC2 in Down syndrome AD. At the protein level, western blots of human brain extracts revealed that human brain-derived TMCC2 exists as at least three isoforms, the relative abundance of which varied between the temporal gyrus and cerebellum and was influenced by APOE and/or dementia status. Our findings thus implicate human TMCC2 in AD via its interactions with APP, its association with dense core plaques, as well as its alteration in Down syndrome AD.
期刊介绍:
Brain Pathology is the journal of choice for biomedical scientists investigating diseases of the nervous system. The official journal of the International Society of Neuropathology, Brain Pathology is a peer-reviewed quarterly publication that includes original research, review articles and symposia focuses on the pathogenesis of neurological disease.