Integrative Systems Approaches Identifying Mitochondrial Metabolic Disruptions in Alzheimer's Disease
Priyanka Baloni, Matthias Arnold, Jesse C Wiley, Huanyao Gao, Cory C Funk, Richa Batra, Alexandra Kueider‐Paisley, Bin Zhang, Russell H Swerdlow, Eugenia Trushina, Rima F. Kaddurah‐Daouk

TL;DR
This study uses multiple data sources to uncover mitochondrial metabolic disruptions in Alzheimer's disease, revealing sex-specific differences and potential therapeutic targets.
Contribution
The study integrates diverse datasets to identify mitochondrial genes and metabolites linked to Alzheimer's disease, highlighting sex-specific differences and druggable targets.
Findings
62 mitochondrial genes were identified as potentially significant in Alzheimer's disease metabolism.
Sex-specific differences were found in mitochondrial transport and TCA cycle subsystems, particularly in females.
Key metabolite-gene interactions and druggable targets were identified for mitochondrial metabolic pathways in AD.
Abstract
Mitochondrial dysfunction in Alzheimer's Disease (AD) is characterized by impaired energy production, oxidative stress, and disrupted calcium homeostasis, which collectively contribute to neuronal damage, synaptic dysfunction, and the progression of AD pathology. A significant knowledge gap in studying mitochondrial dysfunction in Alzheimer's Disease (AD) lies in understanding the precise molecular mechanisms linking mitochondrial metabolic alterations to neuronal damage, particularly how sex‐specific and cell‐type‐specific mitochondrial processes contribute to the progression of AD pathology. This study integrates multiple datasets, post‐mortem brain RNAseq from ROSMAP, Mayo Clinic brain bank and Mount Sinai Brain Bank cohort data available via AD Knowledge Portal hosted by Sage Bionetworks), Human Protein Atlas (HPA), MitoCarta3, genome‐scale human metabolic reconstruction,…
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Taxonomy
TopicsMetabolomics and Mass Spectrometry Studies · Alzheimer's disease research and treatments · Mitochondrial Function and Pathology
