show Abstracthide AbstractRecent advances in pancreatic differentiation from human pluripotent stem cells (hPSCs) hold great potentials for disease modeling and regenerative medicine, and more precise control over the dynamic differentiation process is critical. N6-methyladenosine (m6A) is the most prevalent internal messenger RNA (mRNA) modification, while the roles of m6A mark in pancreatic differentiation and development remain elusive. In addition, ALKBH5 is a major mRNA m6A demethylase and its role in pancreatic differentiation has not been reported. Here, we firstly studied mRNA m6A dynamics during pancreatic differentiation from hPSCs. Next, using the CRISPR-based genome editing tool, we generated ALKBH5 knockout hPSC lines and found that ALKBH5 plays important roles in pancreatic specification. After that, we conducted a series of functional and mechanistic studies, and demonstrated that ALKBH5 modulated many important genes involved in pancreatic differentiation. Collectively, our findings identified ALKBH5 as an essential regulator of human pancreatic differentiation and highlighted that m6A modification presents a new layer of regulation at epitranscriptome levels during cell-fate specification. Overall design: RNA-seq of hILO-WT and hILO-A5-KO cells. RNA-seq of PP-WT and PP-A5-KO cells.