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淀粉样前体蛋白羧基末端片段的神经元内积累是否引发阿尔茨海默病早期神经毒性?

Does Intraneuronal Accumulation of Carboxyl-terminal Fragments of the Amyloid Precursor Protein Trigger Early Neurotoxicity in Alzheimer's Disease?

作者信息

Lauritzen I, Pardossi-Piquard R, Bourgeois A, Bécot A, Checler F

机构信息

IPMC, UMR7275 CNRS/UNS, Laboratory of Excellence DistALZ, 660 route des Lucioles, 0660 Valbonne, France.

出版信息

Curr Alzheimer Res. 2019;16(5):453-457. doi: 10.2174/1567205016666190325092841.

DOI:10.2174/1567205016666190325092841
PMID:30907322
Abstract

BACKGROUND

Alzheimer's disease (AD) is associated with extracellular accumulation and aggregation of amyloid β (Aβ) peptides ultimately seeding in senile plaques. Recent data show that their direct precursor C99 (βCTF) also accumulates in AD-affected brain as well as in AD-like mouse models. C99 is consistently detected much earlier than Aβ, suggesting that this metabolite could be an early contributor to AD pathology. C99 accumulates principally within endolysosomal and autophagic structures and its accumulation was described as both a consequence and one of the causes of endolysosomalautophagic pathology, the occurrence of which has been documented as an early defect in AD. C99 was also accompanied by C99-derived C83 (αCTF) accumulation occurring within the same intracellular organelles. Both these CTFs were found to dimerize leading to the generation of higher molecular weight CTFs, which were immunohistochemically characterized in situ by means of aggregate-specific antibodies.

DISCUSSION

Here, we discuss studies demonstrating a direct link between the accumulation of C99 and C99-derived APP-CTFs and early neurotoxicity. We discuss the role of C99 in endosomal-lysosomalautophagic dysfunction, neuroinflammation, early brain network alterations and synaptic dysfunction as well as in memory-related behavioral alterations, in triple transgenic mice as well as in newly developed AD animal models.

CONCLUSION

This review summarizes current evidence suggesting a potential role of the β -secretasederived APP C-terminal fragment C99 in Alzheimer's disease etiology.

摘要

背景

阿尔茨海默病(AD)与淀粉样β(Aβ)肽的细胞外积累和聚集有关,这些肽最终在老年斑中形成种子。最近的数据表明,其直接前体C99(βCTF)也在受AD影响的大脑以及AD样小鼠模型中积累。C99的检测时间始终比Aβ早得多,这表明这种代谢产物可能是AD病理的早期促成因素。C99主要在内溶酶体和自噬结构中积累,其积累被描述为内溶酶体自噬病理的结果和原因之一,内溶酶体自噬病理的发生已被记录为AD的早期缺陷。C99还伴随着在相同细胞内细胞器中发生的C99衍生的C83(αCTF)积累。发现这两种CTF都会二聚化,导致产生更高分子量的CTF,通过聚集特异性抗体对其进行原位免疫组织化学表征。

讨论

在这里,我们讨论了一些研究,这些研究证明了C99和C99衍生的APP-CTF的积累与早期神经毒性之间的直接联系。我们讨论了C99在三重转基因小鼠以及新开发的AD动物模型中的内体-溶酶体自噬功能障碍、神经炎症、早期脑网络改变和突触功能障碍以及与记忆相关的行为改变中的作用。

结论

本综述总结了当前的证据,表明β-分泌酶衍生的APP C末端片段C99在阿尔茨海默病病因学中可能发挥的作用。

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