Science

HNF1B integrates signals in a feed-forward loop driving kidney disease progression

2026. 4. 15. Source: Science

Summary

Chronic kidney disease (CKD), which affects more than 10% of the global population, may continue to progress even after the triggering insult has resolved, suggesting the involvement of self-sustaining mechanisms that remain poorly understood. Here, we identify this molecular circuitry, centered on the transcription factor HNF1B, a key regulator of renal epithelial identity. In adult kidneys, HNF1B loss disrupts epithelial differentiation and quiescence, induces replication stress, and tri

Content

# HNF1B integrates signals in a feed-forward loop driving kidney disease progression *Published: 2026 Apr 16* Chronic kidney disease (CKD), which affects more than 10% of the global population, may continue to progress even after the triggering insult has resolved, suggesting the involvement of self-sustaining mechanisms that remain poorly understood. Here, we identify this molecular circuitry, centered on the transcription factor HNF1B, a key regulator of renal epithelial identity. In adult kidneys, HNF1B loss disrupts epithelial differentiation and quiescence, induces replication stress, and triggers CKD. Conversely, CKD itself epigenetically suppresses HNF1B activity, creating a vicious cycle that amplifies disease progression. In a cohort of 900 patients, lower HNF1B activity correlated with greater CKD severity, linking this mechanism to common forms of the disease. These findings unify rare Mendelian and common complex kidney disorders and identify HNF1B loss as a driver of CKD. DOI: 10.1126/science.aea3219