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Systems-Based Analyses of Brain Regions Functionally Impacted in Parkinson's Disease Reveals Underlying Causal Mechanisms
Authors:Brigit E. Riley  Shyra J. Gardai  Dorothea Emig-Agius  Marina Bessarabova  Alexander E. Ivliev  Birgit Schüle  Jeff Alexander  William Wallace  Glenda M. Halliday  J. William Langston  Scott Braxton  Ted Yednock  Thomas Shaler  Jennifer A. Johnston
Affiliation:1Elan Pharmaceuticals, South San Francisco, California, United States of America;2Thomson Reuters, Carlsbad, California, United States of America;3The Parkinson''s Institute, Sunnyvale, California, United States of America;4Neuroscience Research Australia and the University of New South Wales, Sydney, N.S.W., Australia;5SRI International, Menlo Park, California, United States of America;National Institutes of Health, United States of America
Abstract:Detailed analysis of disease-affected tissue provides insight into molecular mechanisms contributing to pathogenesis. Substantia nigra, striatum, and cortex are functionally connected with increasing degrees of alpha-synuclein pathology in Parkinson''s disease. We undertook functional and causal pathway analysis of gene expression and proteomic alterations in these three regions, and the data revealed pathways that correlated with disease progression. In addition, microarray and RNAseq experiments revealed previously unidentified causal changes related to oligodendrocyte function and synaptic vesicle release, and these and other changes were reflected across all brain regions. Importantly, subsets of these changes were replicated in Parkinson''s disease blood; suggesting peripheral tissue may provide important avenues for understanding and measuring disease status and progression. Proteomic assessment revealed alterations in mitochondria and vesicular transport proteins that preceded gene expression changes indicating defects in translation and/or protein turnover. Our combined approach of proteomics, RNAseq and microarray analyses provides a comprehensive view of the molecular changes that accompany functional loss and alpha-synuclein pathology in Parkinson''s disease, and may be instrumental to understand, diagnose and follow Parkinson''s disease progression.
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