The molecular link between inefficient GluA2 Q/R site-RNA editing and TDP-43 pathology in motor neurons of sporadic amyotrophic lateral sclerosis patients

Abstract

TAR DNA-binding protein (TDP-43) pathology and reduced expression of adenosine deaminase acting on RNA 2 (ADAR2), which is the RNA editing enzyme responsible for adenosine-to-inosine conversion at the GluA2 glutamine/arginine (Q/R) site, concomitantly occur in the same motor neurons of amyotrophic lateral sclerosis (ALS) patients; this finding suggests a link between these two ALS-specific molecular abnormalities. AMPA receptors containing Q/R site-unedited GluA2 in their subunit assembly are Ca2+-permeable, and motor neurons lacking ADAR2 undergo slow death in conditional ADAR2 knockout (AR2) mice, which is a mechanistic ALS model in which the ADAR2 gene is targeted in cholinergic neurons. Moreover, deficient ADAR2 induced mislocalization of TDP-43 similar to TDP-43 pathology seen in the sporadic ALS patients in the motor neurons of AR2 mice. The abnormal mislocalization of TDP-43 specifically resulted from activation of the Ca2+-dependent serine protease calpain that specifically cleaved TDP-43 at the C-terminal region, and generated aggregation-prone N-terminal fragments. Notably, the N-terminal fragments of TDP-43 lacking the C-terminus were demonstrated in the brains and spinal cords of ALS patients. Because normalization of either the Ca2+-permeability of AMPA receptors or the calpain activity in the motor neurons normalized the subcellular localization of TDP-43 in AR2 mice, it is likely that exaggerated calpain-dependent TDP-43 fragments played a role at least in the initiation of TDP-43 pathology. Elucidation of the molecular cascade of neuronal death induced by ADAR2 downregulation could provide a new specific therapy for sporadic ALS. In this review, we summarized the work from our group on the role of inefficient GluA2 Q/R site-RNA editing and TDP-43 pathology in sporadic ALS, and discussed possible effects of inefficient ADAR2-mediated RNA editing in general.This article is part of a Special Issue entitled RNA Metabolism 2013.