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      Mitochondrial respiratory chain protein co-regulation in the human brain

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          Abstract

          Mitochondrial respiratory chain (RC) function requires the stoichiometric interaction among dozens of proteins but their co-regulation has not been defined in the human brain. Here, using quantitative proteomics across three independent cohorts we systematically characterized the co-regulation patterns of mitochondrial RC proteins in the human dorsolateral prefrontal cortex (DLPFC). Whereas the abundance of RC protein subunits that physically assemble into stable complexes were correlated, indicating their co-regulation, RC assembly factors exhibited modest co-regulation. Within complex I, nuclear DNA-encoded subunits exhibited >2.5-times higher co-regulation than mitochondrial (mt)DNA-encoded subunits. Moreover, mtDNA copy number was unrelated to mtDNA-encoded subunits abundance, suggesting that mtDNA content is not limiting. Alzheimer's disease (AD) brains exhibited reduced abundance of complex I RC subunits, an effect largely driven by a 2–4% overall lower mitochondrial protein content. These findings provide foundational knowledge to identify molecular mechanisms contributing to age- and disease-related erosion of mitochondrial function in the human brain.

          Abstract

          Mitochondrial respiratory chain, Post-mortem brain, Alzheimer disease, Proteomics, ROSMAP, BLSA, Banner.

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          MitoCarta3.0: an updated mitochondrial proteome now with sub-organelle localization and pathway annotations

          Sneha Rath, Rohit Sharma, Rahul Gupta (2020)
          Abstract The mammalian mitochondrial proteome is under dual genomic control, with 99% of proteins encoded by the nuclear genome and 13 originating from the mitochondrial DNA (mtDNA). We previously developed MitoCarta, a catalogue of over 1000 genes encoding the mammalian mitochondrial proteome. This catalogue was compiled using a Bayesian integration of multiple sequence features and experimental datasets, notably protein mass spectrometry of mitochondria isolated from fourteen murine tissues. Here, we introduce MitoCarta3.0. Beginning with the MitoCarta2.0 inventory, we performed manual review to remove 100 genes and introduce 78 additional genes, arriving at an updated inventory of 1136 human genes. We now include manually curated annotations of sub-mitochondrial localization (matrix, inner membrane, intermembrane space, outer membrane) as well as assignment to 149 hierarchical ‘MitoPathways’ spanning seven broad functional categories relevant to mitochondria. MitoCarta3.0, including sub-mitochondrial localization and MitoPathway annotations, is freely available at http://www.broadinstitute.org/mitocarta and should serve as a continued community resource for mitochondrial biology and medicine.
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            Religious Orders Study and Rush Memory and Aging Project.

            David Bennett, Aron Buchman, Patricia Boyle (2018)
            The Religious Orders Study and Rush Memory and Aging Project are both ongoing longitudinal clinical-pathologic cohort studies of aging and Alzheimer's disease (AD).
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              Neuronal loss correlates with but exceeds neurofibrillary tangles in Alzheimer's disease.

              T Gomez-Isla, R M HOLLISTER, H West (1997)
              To assess the relationship between dementia, neuronal loss, and neuropathological findings in Alzheimer's disease (AD), we counted the number of neurons, senile plaques, and neurofibrillary tangles in a high-order association cortex. We studied the superior temporal sulcus of 34 individuals with AD and 17 nondemented control subjects, using statistically unbiased, stereological counting techniques. The number of superior temporal sulcus neurons in nondemented control subjects was stable across the sixth to ninth decades. In AD, more than 50% of the neurons were lost. Both neuronal loss and neurofibrillary tangles increased in parallel with the duration and severity of illness, but the amount of neuronal loss exceeded by manyfold the amount of neurofibrillary tangles accumulated. In contrast to the correlation between neurofibrillary tangles and neuronal loss, the number of senile plaques and the percentage of the superior temporal sulcus that was covered by Abeta (amyloid burden) were not related to neuronal loss, number of neurofibrillary tangles, or duration of disease. Neither the amount nor the rate of neuronal loss in the superior temporal sulcus in AD correlated with apolipoprotein E genotype. These data suggest that neuronal loss in association areas such as the superior temporal sulcus contributes directly to cognitive impairment in AD.
              Article 0 comments Cited 380 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Martin Picard
                Journal
                Journal ID (nlm-ta): Heliyon
                Journal ID (iso-abbrev): Heliyon
                Title: Heliyon
                Publisher: Elsevier
                ISSN (Electronic): 2405-8440
                Publication date PMC-release: 30 April 2022
                Publication date Collection: May 2022
                Publication date (Electronic): 30 April 2022
                Volume: 8
                Issue: 5
                Electronic Location Identifier: e09353
                Affiliations
                [a ]Department of Psychiatry, Division of Behavioral Medicine, Columbia University Irving Medical Center, New York, USA
                [b ]Department of Physiology and Cellular Biophysics, Columbia University Irving Medical Center, New York, USA
                [c ]Center for Translational & Computational Neuroimmunology, Department of Neurology, Columbia University Irving Medical Center, New York, USA
                [d ]Pacific Northwest National Laboratory, Richland, Washington State, USA
                [e ]Departments of Neurology and Human Genetics, Emory University, Atlanta, GA, USA
                [f ]Atlanta VA Medical Center, Decatur, GA, USA
                [g ]Department of Psychiatry, Emory University, Atlanta, GA, USA
                [h ]Clinical and Translational Neuroscience Section, Laboratory of Behavioral Neuroscience, National Institute on Aging Intramural Research Program, Baltimore, USA
                [i ]Longitudinal Study Section, National Institute on Aging, Baltimore, USA
                [j ]Department of Biochemistry, Emory University, Atlanta, USA
                [k ]Rush Alzheimer's Disease Center, Rush University Medical Center, Chicago, Illinois, USA
                [l ]Department of Neurology, H. Houston Merritt Center, Columbia Translational Neuroscience Initiative, Columbia University Irving Medical Center, New York, USA
                [m ]New York State Psychiatric Institute, New York, USA
                Author notes
                []Corresponding author. martin.picard@ 123456columbia.edu
                Article
                Publisher Item ID: S2405-8440(22)00641-7 Publisher ID: e09353
                DOI: 10.1016/j.heliyon.2022.e09353
                PMC ID: 9118667
                SO-VID: 6264b035-f524-4217-ac2b-148a09ae738c
                Copyright © © 2022 The Author(s)
                License:

                This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

                History
                Date received : 10 March 2022
                Date revision received : 12 March 2022
                Date accepted : 27 April 2022
                Categories
                Subject: Research Article

                Keywords: mitochondrial respiratory chain,post-mortem brain,alzheimer disease,proteomics,rosmap,blsa,banner
                Data availability:
                Keywords: mitochondrial respiratory chain, post-mortem brain, alzheimer disease, proteomics, rosmap, blsa, banner

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