49 research outputs found

    Mechanisms of Neuronal Death in Synucleinopathy

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    Ī±-synuclein is a key molecule in the pathogenesis of synucleinopathy including Parkinson's disease and multiple system atrophy. In this mini-review, we mainly focus on recent data obtained from cellular models of synucleinopathy and discuss the possible mechanisms of neurodegeneration. Recent progress suggests that the aggregate formation of Ī±-synuclein is cytoprotective and that its precursor oligomer (protofibril) may be cytotoxic. The catechol-derived quinones are the candidate molecules that facilitate the oligomer formation of Ī±-synuclein. Furthermore, the cellular membranes are shown to be the primary targets injured by mutant Ī±-synucleins, and the mitochondrial dysfunction seems to be an initial step in the neuronal death

    The AAA-ATPase VPS4 Regulates Extracellular Secretion and Lysosomal Targeting of Ī±-Synuclein

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    Many neurodegenerative diseases share a common pathological feature: the deposition of amyloid-like fibrils composed of misfolded proteins. Emerging evidence suggests that these proteins may spread from cell-to-cell and encourage the propagation of neurodegeneration in a prion-like manner. Here, we demonstrated that Ī±-synuclein (Ī±SYN), a principal culprit for Lewy pathology in Parkinson's disease (PD), was present in endosomal compartments and detectably secreted into the extracellular milieu. Unlike prion protein, extracellular Ī±SYN was mainly recovered in the supernatant fraction rather than in exosome-containing pellets from the neuronal culture medium and cerebrospinal fluid. Surprisingly, impaired biogenesis of multivesicular body (MVB), an organelle from which exosomes are derived, by dominant-negative mutant vacuolar protein sorting 4 (VPS4) not only interfered with lysosomal targeting of Ī±SYN but facilitated Ī±SYN secretion. The hypersecretion of Ī±SYN in VPS4-defective cells was efficiently restored by the functional disruption of recycling endosome regulator Rab11a. Furthermore, both brainstem and cortical Lewy bodies in PD were found to be immunoreactive for VPS4. Thus, VPS4, a master regulator of MVB sorting, may serve as a determinant of lysosomal targeting or extracellular secretion of Ī±SYN and thereby contribute to the intercellular propagation of Lewy pathology in PD

    Partial Molar Volumes and Isentropic Compressibilities of N

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