Chromatin architecture at susceptible gene loci in cerebellar Purkinje cells characterizes DNA damage–induced neurodegeneration
Young Don Kwak, Timothy I. Shaw, Susanna M. Downing, Ambika Tewari, Hongjian Jin, Yang Li, Lavinia C. Dumitrache, Sachin Katyal, Kamran Khodakhah, H. R. Russell, Peter J. McKinnon
Abstract
. Abundant genotoxic R loops were also found at these Purkinje cell gene loci, further exacerbating DNA damage and transcriptional disruption. Using ATAC-seq to profile global chromatin accessibility in the cerebellum, we found a notably unique chromatin conformation specifically in Purkinje chromatin at the affected gene loci, thereby promoting susceptibility to DNA damage. These data reveal the pathogenic basis of DNA damage in the nervous system and suggest chromatin conformation as a feature in directing genome instability–associated neuropathology.
Topics & Concepts
NeurodegenerationBiologyGenome instabilityAtaxiaDNA damageRNA splicingGeneCerebellumChromatinPurkinje cellGeneticsNeuroscienceCell biologyRNADNADiseaseMedicinePathologyGenetic Neurodegenerative DiseasesMitochondrial Function and PathologyRNA Research and Splicing