SRP328532 PRJNA747000 GSE180192 Epithelial memory of resolved inflammation limits tissue damage while promoting pancreatic tumorigenesis [ATAC-seq] Inflammation is a major risk factor for pancreatic ductal adenocarcinoma (PDAC). When occurring in the context of pancreatitis, mutations of KRAS accelerate tumor development. We discovered that long after its complete resolution, a transient inflammatory event primes pancreatic epithelial cells to subsequent transformation by oncogenic KRAS. Upon recovery from acute inflammation, epithelial cells of the pancreas display an enduring adaptive response associated with sustained transcriptional and epigenetic reprogramming. Such adaptation enables the prompt reactivation of acinar-to-ductal metaplasia (ADM) upon subsequent inflammatory events, thus efficiently limiting tissue damage via rapid decrease of zymogen production. We propose that since activating mutations of KRAS maintain an irreversible ADM, they may be beneficial and under strong positive selection in the context of recurrent pancreatitis. Overall design: For pancreatic cells ATAC-seq (sample 1-4), pancreata were harvested from C57BL/6J wild-type mice at different time points before and after caerulein-induced acute inflammation and digested to obtain single cell suspension. Epithelial cells were then purified followed by ATAC-seq library preparation. For pancreatic DCLK1-positve cell ATAC-seq (sample 5-7), pancreata were harvested from Dclk1-DTR-ZsGreen mice at different time points before and after caerulein-induced acute inflammation and digested to obtain single cell suspension. DCLK1-positive epithelial cells were then purified followed by ATAC-seq library preparation. GSE180192 pubmed 34529467 parent_bioproject PRJNA747025