Neuronal elav-like (Hu) proteins regulate RNA splicing and abundance to control glutamate levels and neuronal excitability

The paraneoplastic neurologic disorders target several families of neuron-specific RNA binding proteins (RNABPs), revealing that there are unique aspects of gene expression regulation in the mammalian brain. Here, we used HITS-CLIP to deter- mine robust binding sites targeted by the neuronal Elav-like (nElavl) RNABPs. Surprisingly, nElav protein binds preferentially to GU-rich sequences in vivo and in vitro, with secondary binding to AU-rich sequences. nElavl null mice were used to validate the consequence of these binding events in the brain, demonstrating that they bind intronic sequences in a position dependent manner to regulate alternative splicing and to 30 UTR sequences to regulate mRNA levels. These controls converge on the glutamate synthesis pathway in neurons; nElavl proteins are required to maintain neurotransmitter glutamate levels, and the lack of nElavl leads to spontaneous epileptic seizure activity. The genome-wide anal- ysis of nElavl targets reveals that one function of neuron-specific RNABPs is to control excitation-inhibition balance in the brain.Gulayse Ince-Dunn, Hirotaka J. Okano, Kirk B. Jensen, Woong-Yang Park, Ru Zhong, Jernej Ule, Aldo Mele, John J. Fak, ChingWen Yang, Chaolin Zhang, Jong Yoo, Margaret Herre, Hideyuki Okano, Jeffrey L. Noebels and Robert B. Darnel