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Literature DB >> 25176146

Amyloid-β peptide induces mitochondrial dysfunction by inhibition of preprotein maturation.

Dirk Mossmann¹, F-Nora Vögtle², Asli Aras Taskin³, Pedro Filipe Teixeira⁴, Julia Ring⁵, Julia M Burkhart⁶, Nils Burger², Catarina Moreira Pinho⁴, Jelena Tadic⁵, Desiree Loreth⁷, Caroline Graff⁸, Friedrich Metzger⁹, Albert Sickmann¹⁰, Oliver Kretz¹¹, Nils Wiedemann¹², René P Zahedi⁶, Frank Madeo⁵, Elzbieta Glaser⁴, Chris Meisinger¹³.

Abstract

Most mitochondrial proteins possess N-terminal presequences that are required for targeting and import into the organelle. Upon import, presequences are cleaved off by matrix processing peptidases and subsequently degraded by the peptidasome Cym1/PreP, which also degrades Amyloid-beta peptides (Aβ). Here we find that impaired turnover of presequence peptides results in feedback inhibition of presequence processing enzymes. Moreover, Aβ inhibits degradation of presequence peptides by PreP, resulting in accumulation of mitochondrial preproteins and processing intermediates. Dysfunctional preprotein maturation leads to rapid protein degradation and an imbalanced organellar proteome. Our findings reveal a general mechanism by which Aβ peptide can induce the multiple diverse mitochondrial dysfunctions accompanying Alzheimer's disease.

Entities: Disease Gene

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Year: 2014 PMID： 25176146 DOI： 10.1016/j.cmet.2014.07.024

Source DB: PubMed Journal: Cell Metab ISSN： 1550-4131 Impact factor: 27.287

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