Novelin vivoTDP-43 stress reporter models to accelerate drug development in ALS

Abstract

AbstractThe development of therapies to combat neurodegenerative diseases is widely recognised as a research priority, with conditions like Alzheimer’s, Amyotrophic lateral sclerosis (ALS) and Parkinson’s set to place an ever-heavier burden on healthcare systems in the near future. Despite recent advances in understanding their molecular basis, there is a lack of suitable early biomarkers to test selected compounds and accelerate their translation to clinical trials. We have investigated the utility ofin vivoreporters of cytoprotective pathways (e.g. NRF2, p53) as surrogate early biomarkers of the ALS degenerative disease progression. We hypothesized that cellular stress observed in a model of ALS may precede overt cellular damage and could activate our cytoprotective pathway reporters. To test this hypothesis, we generated novel ALS-reporter mice by crossing the hTDP-43tg model into our oxidative stress/inflammation (Hmox1; NRF2 pathway) and DNA damage (p21; p53 pathway) stress reporter models. Histological analysis of reporter expression in a homozygous hTDP-43tg background demonstrated a time-dependent and tissue-specific activation of the reporters in tissues directly associated with ALS. The activation occurs in Purkinje neurons and other parvalbumin-positive (PV+) cells within the cerebellum of mice, before moderate clinical signs are observed. In addition, reporter expression in hTDP-43tg hom peripheral tissues was not observed at the tested mouse ages (15 and 17 days postnatally). Further work is warranted to determine the specific mechanisms by which TDP-43 accumulation leads to reporter activation and whether therapeutic intervention modulates reporters’ expression. Our current studies suggest that these reporters may represent a powerful approach to accelerate preclinical studies targeting TDP-43 pathologies. We anticipate the reporter strategy could be of great value in developing treatments for a range of degenerative disorders.