T7K24R mice carry mutation p.K24R in mouse cationic trypsinogen (isoform T7), which is analogous to the human hereditary pancreatitis-associated mutation p.K23R. The mutation renders trypsinogen more prone to autoactivation. We recently reported that T7K24R mice exhibit increased severity of acute pancreatitis induced by repeated cerulein injections. The objective of the present study was to test whether trypsinogen mutant mice are prone to develop chronic pancreatitis, as observed in patients. We characterized the natural course of cerulein-induced pancreatitis in T7K24R mice and the C57BL/6N parent strain from the acute episode to 3 months post-attack. As expected, an acute episode of pancreatitis in C57BL/6N mice was followed by rapid recovery and histological restitution. In stark contrast, T7K24R mice developed progressive chronic pancreatitis with acinar cell atrophy, persistent macrophage infiltration, and diffuse fibrosis. The nadir of pancreas damage occurred on days 5-6 after the acute episode and was accompanied by digestive dysfunction. Remarkably, histological recovery was markedly delayed and permanent, chronic changes were still detectable 1-3 months after the acute pancreatitis episode. We conclude that during cerulein-induced acute pancreatitis in T7K24R mice, trypsin triggers an autonomous inflammatory program resulting in chronic disease progression, even after the cessation of cerulein-mediated injury. We propose that this uniquely trypsin-dependent mechanism explains the development of hereditary chronic pancreatitis in humans. Trypsin inhibition during acute attacks should prevent or delay progression to chronic disease.
Keywords: Cerulein; Inflammation; Pancreas atrophy; Pancreatitis; Trypsin.
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