Insights into the etiology and physiopathology of <scp>MODY5</scp> / <scp>HNF1B</scp> pancreatic phenotype with a mouse model of the human disease - Morphogenèse du cerveau des vertébrés
Article Dans Une Revue Journal of Pathology Année : 2021

Insights into the etiology and physiopathology of MODY5 / HNF1B pancreatic phenotype with a mouse model of the human disease

Résumé

Maturity-onset diabetes of the young type 5 (MODY5) is due to heterozygous mutations or deletion of HNF1B. No mouse models are currently available to recapitulate the human MODY5 disease. Here, we investigate the pancreatic phenotype of a unique MODY5 mouse model generated by heterozygous insertion of a human HNF1B splicing mutation at the intron-2 splice donor site in the mouse genome. This Hnf1b sp2/+ model generated with targeted mutation of Hnf1b mimicking the c.544+1G>T (T) mutation identified in humans, results in alternative transcripts and a 38% decrease of native Hnf1b transcript levels. As a clinical feature of MODY5 patients, the hypomorphic mouse model Hnf1b sp2/+ displays glucose intolerance. Whereas Hnf1b sp2/+ isolated islets showed no altered insulin secretion, we found a 65% decrease in pancreatic insulin content associated with a 30% decrease in total large islet volume and a 20% decrease in total β-cell volume. These defects were associated with a 30% decrease in expression of the pro-endocrine gene Neurog3 that we previously identified as a direct target of Hnf1b, showing a developmental etiology. As another clinical feature of MODY5 patients, the Hnf1b sp2/+ pancreases display exocrine dysfunction with hypoplasia. We observed chronic pancreatitis with loss of acinar cells, acinar-to-ductal metaplasia, and lipomatosis, with upregulation of signaling pathways and impaired acinar cell regeneration. This was associated with ductal cell deficiency characterized by shortened primary cilia. Importantly, the Hnf1b sp2/+ mouse model reproduces the pancreatic features of the human MODY5/ HNF1B disease, providing a unique in vivo tool for molecular studies of the endocrine and exocrine defects and to advance basic and translational research.
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Dates et versions

hal-03977649 , version 1 (19-02-2023)

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Citer

Evans Quilichini, Mélanie Fabre, Christoffer Nord, Thassadite Dirami, Axelle Le Marec, et al.. Insights into the etiology and physiopathology of MODY5 / HNF1B pancreatic phenotype with a mouse model of the human disease. Journal of Pathology, 2021, 254, pp.31-45. ⟨10.1002/path.5629⟩. ⟨hal-03977649⟩
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