Gisela V. Novack, Pablo Galeano, Lucas A. Defelipe, Lorenzo Campanelli, Karen S. Campuzano, Cecilia Rotondaro, Eduardo M. Castaño, Sonia Do Carmo, A. Claudio Cuello, María M. García-Alai, Laura Morelli
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引用次数: 0
Abstract
Mitochondrial respiratory complexes are organized into supercomplexes (SC) to regulate electron flow and mitigate oxidative stress. Alterations in SC organization in the brain may affect energy expenditure, oxidative stress, and neuronal survival. In this report, we investigated the amount, activity and organization of mitochondrial complex I (CI) in the hippocampus of 12-month-old McGill-R-Thy1-APP transgenic (Tg) rats, an animal model of Alzheimer's-like cerebral amyloidosis. By means of BN-PAGE, we found that the organization of SC did not differ between genotypes, but a lower abundance of SC was detected in Tg compared to wild-type (WT) rats. Using a more sensitive technique (2-D electrophoresis followed by Western blot), higher levels of free CI and a decrease in the relative abundance of assembled CI in SC (I-III2 and I-III2-IV) were observed in Tg rats. In-gel activity assays showed that the total activity of CI (CI + SC-CI) is lower in Tg compared to WT, while Tg samples show a significant decrease in SC-CI-associated activity. This alteration in CI assembly was associated with nitro-oxidative stress and changes in mitochondrial fusion-fission parameters. To assess CI composition, we applied LC–MS/MS to the isolated CI from BN-PAGE and found that 11 of 45 subunits described in mammals were found to be less abundant in Tg. We examined the levels of the nuclear-derived NDUFA9 subunit, which is critical for CI assembly, and found higher levels in the cytoplasmic fraction and lower levels in the mitochondrial fraction in Tg, suggesting that brain amyloidosis affects the import of CI subunits from the cytosol to the mitochondria, destabilizing the SC. This is the first report to characterize the types, abundance and activity of SC in the hippocampus of an animal model of cerebral amyloidosis, providing additional experimental evidence for the molecular mechanisms underlying the brain bioenergetic deficit characteristic of Alzheimer's disease.
期刊介绍:
Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.
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