Abstract
RNA binding proteins (RBPs) are increasingly being recognized as important regulators of pancreatic β cells' identity and function. We identified the poly-A binding RBP, CPEB1, as a potential new regulator linked to β cell failure in diabetes based on its enrichment in mature, healthy adult β cells and its sharp decrease in β cells in type 1 diabetes (T1D) and type 2 diabetes (T2D). While CPEB1 is known to regulate an extensive range of biological processes, and its involvement in regulating genes involved in insulin signaling and apoptosis in the liver has been reported, CPEB1 function in β cells is unknown. Here, we have used two independent genetic mouse models, namely β cell-specific and whole body Cpeb1 deletions, to assess the role of CPEB1 in β cells. We show that CPEB1 is dispensable for β cell function and identity. Using bulk RNA sequencing on islets of both models, we also show that CPEB1 regulates markedly different sets of genes between islets of male and female mice, both at the transcriptional and at the polyadenylation levels.