Pancreas-specific miR-216a regulates proliferation and endocrine and exocrine cell function II

Several miRNAs have tissue-specific patterns consistent with crucial functions in many biological processes and are candidate biomarkers of disease. Yet, there is limited knowledge about the role of pancreas-specific miRNAs in pancreatic pathologies. Here, we show that miR-216a is a conserved, pancreas-specific miRNA with important roles in pancreatic islet and acinar cells. By profiling miRNAs from human islets and subsequent systematic tissue analysis we found that miR-216a is highly enriched in endocrine and exocrine pancreas. Deletion of miR-216a in mice lead to a reduction in islet size, ß-cell mass and insulin levels. RNA-sequencing indicated that cell cycle and proliferation were the most significantly regulated biological processes in miR-216 knockout pancreata. miR-216a was induced by TGF-ß signalling and inhibition of miR-216a increased apoptosis and decreased cell proliferation in both ß- and exocrine cells. Deletion of miR-216a in the pancreatic cancer prone mouse line Kras G12D ;Ptf1a CreER reduced the propensity of pancreatic cancer precursor lesions. Notably, circulating miR-216a levels were elevated in both mice and humans with pancreatic cancer. Collectively, our study gives insights into how ß-cell mass and acinar cell growth are modulated by a pancreas-specific miRNA but also suggests miR-216a as a promising biomarker for diagnosis of pancreatic diseases. Overall design: Six bulk RNA sequencing profiles from whole pancreas of 1 day old wild type (WT) and miR216a-/- mice