Sex-Dimorphic Neural Memory Shapes Pancreatic Tissue Resilience
Ferreira, R. M.; Ballabio, C.; Rodriguez, E.; Karoutas, A.; Chrakavarti, P.; Martinelli, E.; Stazi, M.; Salgueiro Torres, S.; Bridgeman, V.; Ruhland, S.; Li, L.; Sleigh, J. N.; Malanchi, I.
Show abstract
Epithelial cells can encode prior damage into lasting epigenetic and functional states, enabling a primed response to future insults. In the pancreas, acute injury induces reversible acinar cell reprogramming toward a progenitor-like identity that persists beyond repair, supporting resilience to recurrent injury but creating a permissive state for malignant transformation. Given the central role of the tissue niche in stem cell regulation, we investigated microenvironmental adaptations that sustain this primed epithelial state. Using genetic mouse models and ex vivo organoid co-cultures, we identify a sex-specific sensory neural memory after pancreatitis that sustains long-term epithelial plasticity through a CGRP-dependent neuron-epithelial axis. We show that sex differences in acute inflammation drive neutrophil-dependent suppression of neural activation in females, decoupling neural memory from epithelial plasticity after repair. In males, neural memory promotes post-injury plasticity, revealing tissue memory as coordinated adaptation between epithelial progenitors and their niche.
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