GATA4 and GATA6 control mouse pancreas organogenesis
Manuel Carrasco, … , Francisco Martín, Anabel Rojas
Manuel Carrasco, … , Francisco Martín, Anabel Rojas
Published September 24, 2012
Citation Information: J Clin Invest. 2012;122(10):3504-3515. https://doi.org/10.1172/JCI63240.
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Research Article

GATA4 and GATA6 control mouse pancreas organogenesis

Abstract

Recently, heterozygous mutations in GATA6 have been found in neonatal diabetic patients with failed pancreatic organogenesis. To investigate the roles of GATA4 and GATA6 in mouse pancreas organogenesis, we conditionally inactivated these genes within the pancreas. Single inactivation of either gene did not have a major impact on pancreas formation, indicating functional redundancy. However, double Gata4/Gata6 mutant mice failed to develop pancreata, died shortly after birth, and displayed hyperglycemia. Morphological defects in Gata4/Gata6 mutant pancreata were apparent during embryonic development, and the epithelium failed to expand as a result of defects in cell proliferation and differentiation. The number of multipotent pancreatic progenitors, including PDX1+ cells, was reduced in the Gata4/Gata6 mutant pancreatic epithelium. Remarkably, deletion of only 1 Gata6 allele on a Gata4 conditional knockout background severely reduced pancreatic mass. In contrast, a single WT allele of Gata4 in Gata6 conditional knockout mice was sufficient for normal pancreatic development, indicating differential contributions of GATA factors to pancreas formation. Our results place GATA factors at the top of the transcriptional network hierarchy controlling pancreas organogenesis.

Authors

Manuel Carrasco, Irene Delgado, Bernat Soria, Francisco Martín, Anabel Rojas

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Figure 2

Pancreatic agenesis in Gata4/Gata6 double mutant.

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Pancreatic agenesis in Gata4/Gata6 double mutant. Gross appearance of ...
Gross appearance of neonatal WT and conditional mutant guts (AD) and pancreatic sections stained with H&E (EH) reveal the abnormal morphology of double-mutant pancreata at P1. Gata4flox/flox;Gata6flox/+;Pdx1-Cre mice show pancreatic hypoplasia with scarcity of acinar cells (B and F). Gata4flox/+;Gata6flox/flox;Pdx1-Cre mice display normal pancreatic mass and architecture (C and G). Immunohistochemical analysis shows reduced expression of the acinar marker, amylase, in Gata4flox/flox;Gata6flox/+;Pdx1-Cre pancreatic sections (J) compared with Gata4flox/+;Gata6flox/flox;Pdx1-Cre (K) and control littermates (I). The double-mutant pancreatic remnant displays cystic structures surrounded by abundant stroma (H, L, P, and Q). The cystic structures express mucin (L) and cytokeratin 19 (S) and react with DBA lectin (T), which are markers of differentiated ductal cells. Immunostaining for E-cadherin confirms the epithelial nature of the cysts (R). Insulin and glucagon staining reveals normal differentiation of the endocrine lineage in Gata4flox/flox;Gata6flox/+;Pdx1-Cre (N) and Gata4flox/+;Gata6flox/flox;Pdx1-Cre (O) mutant mice in comparison with control mice (M). In contrast, Gata4/Gata6 double-mutant mice lack endocrine cells (P). Counterstaining with DAPI was performed to reveal nuclei. Scale bars: 50 μm.