Rbm24 modulates neuronal RNA splicing to restrict cognitive dysfunction

Synaptic dysfunction is associated with early neurodegenerative changes and cognitive deficits. Neuronal cell-specific alternative splicing (AS) programs exclusively encode unique neuron- and synapse-specific proteins. However, it remains unclear whether splicing disturbances in neurons influence the pathogenesis of cognitive impairment. Here, we observed that RNA-binding motif protein 24 (RBM24) expression was decreased in Alzheimer's disease (AD) patients. Using conditional RBM24 knockout mice, we demonstrated that deletion of RBM24 in the brain resulted in learning and memory impairment. Electrophysiological recordings from hippocampal slices from mice lacking RBM24 revealed multiple defects in excitatory synaptic function and plasticity. Furthermore, RNA sequencing and splicing analysis showed that RBM24 regulates a network of genes related to cognitive function. Deletion of RBM24 disrupted the AS of synapse-associated genes, including GluR2 and Prrt1, the major disease genes involved in cognitive impairment and memory loss, leading to cognitive dysfunction. Together, our results suggest that the regulation of mRNA splicing by RBM24 is a key process involved in maintaining normal synaptic function and provide novel mechanistic insights into the pathogenesis of AD.