Journal ArticleDOI
Alzheimer's Disease: Genes, Proteins, and Therapy
TLDR
Evidence that the presenilin proteins, mutations in which cause the most aggressive form of inherited AD, lead to altered intramembranous cleavage of the beta-amyloid precursor protein by the protease called gamma-secretase has spurred progress toward novel therapeutics and provided discrete biochemical targets for drug screening and development.Abstract:
Rapid progress in deciphering the biological mechanism of Alzheimer's disease (AD) has arisen from the application of molecular and cell biology to this complex disorder of the limbic and association cortices. In turn, new insights into fundamental aspects of protein biology have resulted from research on the disease. This beneficial interplay between basic and applied cell biology is well illustrated by advances in understanding the genotype-to-phenotype relationships of familial Alzheimer's disease. All four genes definitively linked to inherited forms of the disease to date have been shown to increase the production and/or deposition of amyloid β-protein in the brain. In particular, evidence that the presenilin proteins, mutations in which cause the most aggressive form of inherited AD, lead to altered intramembranous cleavage of the β-amyloid precursor protein by the protease called γ-secretase has spurred progress toward novel therapeutics. The finding that presenilin itself may be the long-sought γ-...read more
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Journal ArticleDOI
Mitochondrial Aβ: a potential focal point for neuronal metabolic dysfunction in Alzheimer’s disease
Casper Caspersen,Ning Wang,Ning Wang,Jun Yao,Alexander A. Sosunov,Xi Chen,Joyce W. Lustbader,Hongwei Xu,David M. Stern,Guy M. McKhann,Shi Du Yan +10 more
TL;DR: It is demonstrated that intracellular Aβ is present in mitochondria from brains of transgenic mice with targeted neuronal overexpression of mutant human amyloid precursor protein and AD patients, delineating a new means through which Aβ potentially impairs neuronal energetics, contributing to cellular dysfunction in AD.
Journal ArticleDOI
Aβ(1–42) fibril structure illuminates self-recognition and replication of amyloid in Alzheimer's disease
Yiling Xiao,Buyong Ma,Dan McElheny,Sudhakar Parthasarathy,Fei Long,Minako Hoshi,Ruth Nussinov,Yoshitaka Ishii +7 more
TL;DR: The atomic model of an Aβ(1–42) amyloid fibril, from solid-state NMR (ssNMR) data, is presented, providing insight into the A β(1-42)-selective self-replicating amyloids-propagation machinery in early-stage Alzheimer's disease.
Journal ArticleDOI
The physiology and pathophysiology of nitric oxide in the brain.
TL;DR: Nitric oxide is a well-known vasorelaxant agent, but it works as a neurotransmitter when produced by neurons and is also involved in defense functions when it is produced by immune and glial cells.
Journal ArticleDOI
Endoplasmic Reticulum Stress in Disease Pathogenesis
TL;DR: A selection of diseases whose pathogenesis involves ER stress is discussed and an intricate set of signaling pathways from the ER to the cytosol and nucleus are discussed, to allow the cell to respond to the presence of misfolded proteins within the ER.
Journal ArticleDOI
Potent anti-amyloidogenic and fibril-destabilizing effects of polyphenols in vitro: implications for the prevention and therapeutics of Alzheimer's disease
Kenjiro Ono,Yuji Yoshiike,Akihiko Takashima,Kazuhiro Hasegawa,Hironobu Naiki,Masahito Yamada +5 more
TL;DR: Although the mechanisms by which these polyphenols inhibit fAβ formation from Aβ, and destabilize pre‐formed fA βin vitro are still unclear, polyphenol could be a key molecule for the development of preventives and therapeutics for AD.
References
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Journal ArticleDOI
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Journal ArticleDOI
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Journal ArticleDOI
Segregation of a missense mutation in the amyloid precursor protein gene with familial Alzheimer's disease.
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