ASO targeting temperature-controlledRBM3poison exon splicing prevents neurodegeneration in vivo

Abstract

SummaryNeurodegenerative diseases are increasingly prevalent in the aging population, yet currently no disease-modifying treatments are available. Increasing the expression of the cold-shock protein, RBM3, through therapeutic hypothermia is remarkably neuroprotective, but cooling poses a health risk itself, strongly limiting its clinical application. Selective upregulation of RBM3 at normothermia thus holds immense therapeutic potential. Here we identify a poison exon within the RBM3 gene that is solely responsible for cold-induced RBM3 expression. Genetic removal or ASO-mediated manipulation of this exon yields high RBM3 levels independent of cooling. Notably, a single administration of ASO to exclude the poison exon, using FDA-approved chemistry, results in long-lasting increase of RBM3 expression in mouse brains. In prion-diseased mice, this treatment leads to remarkable neuroprotection, with prevention of neuronal loss and spongiosis despite high levels of prion protein. RBM3-inducing ASOs could thus broadly deliver protection in humans in conditions ranging from acute brain injury to Alzheimer’s disease.One sentence summaryInducing cold shock protein RBM3 by modulating its alternative splicing at normothermia is neuroprotective in vivo