1. NFIC regulates ribosomal biology and ER stress in pancreatic acinar cells and restrains PDAC initiation.
- Author
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Cobo, Isidoro, Paliwal, Sumit, Bodas, Cristina, Felipe, Irene, Melià-Alomà, Júlia, Torres, Ariadna, Martínez-Villarreal, Jaime, Malumbres, Marina, García, Fernando, Millán, Irene, del Pozo, Natalia, Park, Joo-Cheol, MacDonald, Ray J., Muñoz, Javier, Méndez, Raúl, and Real, Francisco X.
- Subjects
PANCREATIC acinar cells ,BIOLOGY ,PRECANCEROUS conditions ,PANCREATIC duct ,GENE expression - Abstract
Pancreatic acinar cells rely on PTF1 and other transcription factors to deploy their transcriptional program. We identify NFIC as a NR5A2 interactor and regulator of acinar differentiation. NFIC binding sites are enriched in NR5A2 ChIP-Sequencing peaks. Nfic knockout mice have a smaller, histologically normal, pancreas with reduced acinar gene expression. NFIC binds and regulates the promoters of acinar genes and those involved in RNA/protein metabolism, and Nfic knockout pancreata show defective ribosomal RNA maturation. NFIC dampens the endoplasmic reticulum stress program through binding to gene promoters and is required for resolution of Tunicamycin-mediated stress. NFIC is down-regulated during caerulein pancreatitis and is required for recovery after damage. Normal human pancreata with low levels of NFIC transcripts display reduced expression of genes down-regulated in Nfic knockout mice. NFIC expression is down-regulated in mouse and human pancreatic ductal adenocarcinoma. Consistently, Nfic knockout mice develop a higher number of mutant Kras-driven pre-neoplastic lesions. Pancreatic acinar differentiation can be tumour suppressive for pancreatic ductal adenocarcinoma (PDAC). Here the authors identify nuclear factor I family of transcription factors NFIC as a regulator of pancreatic acinar cell function that restrains mutant KRas-driven pancreas cancer initiation in mice. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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