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Pancreas agenesis mutations disrupt a lead enhancer controlling a developmental enhancer cluster

Irene Miguel-Escalada, M.A. Maestro, Diego Balboa, Anamaria Elek, Aina Bernal, Edgar Bernardo, Vanessa Grau, Javier García-Hurtado, Arnau Sebé-Pedrós, Jorge Ferrer

2022Developmental Cell25 citationsDOIOpen Access PDF

Abstract

Sequence variants in cis-acting enhancers are important for polygenic disease, but their role in Mendelian disease is poorly understood. Redundancy between enhancers that regulate the same gene is thought to mitigate the pathogenic impact of enhancer mutations. Recent findings, however, have shown that loss-of-function mutations in a single enhancer near PTF1A cause pancreas agenesis and neonatal diabetes. Using mouse and human genetic models, we show that this enhancer activates an entire PTF1A enhancer cluster in early pancreatic multipotent progenitors. This leading role, therefore, precludes functional redundancy. We further demonstrate that transient expression of PTF1A in multipotent progenitors sets in motion an epigenetic cascade that is required for duct and endocrine differentiation. These findings shed insights into the genome regulatory mechanisms that drive pancreas differentiation. Furthermore, they reveal an enhancer that acts as a regulatory master key and is thus vulnerable to pathogenic loss-of-function mutations.

Topics & Concepts

EnhancerBiologyEnhancer RNAsGeneticsEpigeneticsCell biologyTranscription factorGenePancreatic function and diabetesEpigenetics and DNA MethylationGenomics and Chromatin Dynamics
Pancreas agenesis mutations disrupt a lead enhancer controlling a developmental enhancer cluster | Litcius