Shape deformation analysis reveals the temporal dynamics of cell-type-specific homeostatic and pathogenic responses to mutant huntingtin

Author(s)

Megret, Lucile; Gris, Barbara; Sasidharan Nair, Satish; Cevost, Jasmin; Wertz, Mary; Aaronson, Jeff; Rosinski, Jim; Vogt, Thomas F; Wilkinson, Hilary; Heiman, Myriam; Neri, Christian; ... Show more Show less

Abstract

© Megret et al. Loss of cellular homeostasis has been implicated in the etiology of several neurodegenerative diseases (NDs). However, the molecular mechanisms that underlie this loss remain poorly understood on a systems level in each case. Here, using a novel computational approach to integrate dimensional RNA-seq and in vivo neuron survival data, we map the temporal dynamics of homeostatic and pathogenic responses in four striatal cell types of Huntington’s disease (HD) model mice. This map shows that most pathogenic responses are mitigated and most homeostatic responses are decreased over time, suggesting that neuronal death in HD is primarily driven by the loss of homeostatic responses. Moreover, different cell types may lose similar homeostatic processes, for example, endosome biogenesis and mitochondrial quality control in Drd1-expressing neurons and astrocytes. HD relevance is validated by human stem cell, genome-wide association study, and post-mortem brain data. These findings provide a new paradigm and framework for therapeutic discovery in HD and other NDs.

Date issued

2021

URI

https://hdl.handle.net/1721.1/133745

Department

Picower Institute for Learning and Memory

Journal

eLife

Publisher

eLife Sciences Publications, Ltd