Nuclear Receptor Liver Receptor Homolog-1 drives Intestinal Stem Cell regeneration and UPR/ER stress response after gut injury

Stem cell renewal and crypt survival are tightly controlled processes critical for gut repair. Defining key regulators of intestinal healing is critical for the development of new epithelial-targeted therapies. We previously showed that the nuclear receptor LRH-1 (NR5A2) maintains intestinal epithelial health and protects against inflammatory damage. Here, using lineage tracing and selective LRH-1 knockout in the Atoh1 ⁺ secretory lineage we show LRH-1 is vital for intestinal stem cell (ISC) regeneration in complementary in vivo and ex vivo injury-recovery models. Transcriptomic profiling and pathway analysis reveal downregulation of ER stress and unfolded protein response (UPR) programs. Using a new in vivo model to ascertain how LRH-1 directly impacts intestinal cell responses, we identify key ER stress response genes Ire1α and Xbp1 as potential LRH-1 targets. Together our results uncover a novel mechanism whereby LRH-1 sustains the IRE1α-XBP1 arm of the UPR to support injury-induced dedifferentiation and ISC regeneration. Our findings highlight LRH-1 as a promising therapeutic target for restoring epithelial integrity in inflammatory intestinal disorders.