Cerebellum mitochondrial DNA copy number is increased in Parkinson's disease.

Abstract

Bioinformatics methods can be used to quantify mitochondrial DNA copy number from whole genome sequencing (WGS) data. We evaluated mitochondrial DNA copy number from human brain-derived WGS data using the fastMitoCalc tool. 341 Parkinson's Disease cerebellum samples were compared with 74 age-matched controls from the North American Brain Expression Consortium. Parkinson's Disease cerebellum had significantly higher mitochondrial DNA copy number compared with controls (P = 4.15e-7), and this effect was reproducible in four of five brain banks when analysis was restricted to each resource that contributed Parkinson's Disease samples to this genetic dataset. Follow-on analyses of 128 Parkinson's Disease cerebellum samples and 33 controls that had paired neuropathology data and clinical scores demonstrated a significant increase in mitochondrial DNA copy number with Unified Staging System for Lewy Body disorders stages and Unified Parkinson's Disease Rating Scale (off meds) motor scores. Analysis of Lewy Body scores from ten brain regions showed cerebellum mitochondrial DNA copy number increased upon pathological infestation of α-synuclein aggregates in the brainstem and limbic system but did not increase after late-stage neocortical involvement. This genetics dataset supports previous observations of cerebellum activation in Parkinson's Disease and suggests mitochondrial DNA copy number may increase to support this regional activation as a compensatory mechanism to pathology or motor symptoms.