The diabetes gene Pdx1 regulates the transcriptional network of pancreatic endocrine progenitor cells in mice
Jennifer M. Oliver-Krasinski, … , Klaus H. Kaestner, Doris A. Stoffers
Jennifer M. Oliver-Krasinski, … , Klaus H. Kaestner, Doris A. Stoffers
Published June 1, 2009
Citation Information: J Clin Invest. 2009;119(7):1888-1898. https://doi.org/10.1172/JCI37028.
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Research Article Metabolism

The diabetes gene Pdx1 regulates the transcriptional network of pancreatic endocrine progenitor cells in mice

Abstract

Heterozygous mutations in the gene encoding the pancreatic homeodomain transcription factor pancreatic duodenal homeobox 1 (PDX1) are associated with maturity onset diabetes of the young, type 4 (MODY4) and type 2 diabetes. Pdx1 governs the early embryonic development of the pancreas and the later differentiation of the insulin-producing islet β cells of the endocrine compartment. We derived a Pdx1 hypomorphic allele that reveals a role for Pdx1 in the specification of endocrine progenitors. Mice homozygous for this allele displayed a selective reduction in endocrine lineages associated with decreased numbers of endocrine progenitors and a marked reduction in levels of mRNA encoding the proendocrine transcription factor neurogenin 3 (Ngn3). During development, Pdx1 occupies an evolutionarily conserved enhancer region of Ngn3 and interacts with the transcription factor one cut homeobox 1 (Hnf6) to activate this enhancer. Furthermore, mRNA levels of all 4 members of the transcription factor network that regulates Ngn3 expression, SRY-box containing gene 9 (Sox9), Hnf6, Hnf1b, and forkhead box A2 (Foxa2), were decreased in homozygous mice. Pdx1 also occupied regulatory sequences in Foxa2 and Hnf1b. Thus, Pdx1 contributes to specification of endocrine progenitors both by regulating expression of Ngn3 directly and by participating in a cross-regulatory transcription factor network during early pancreas development. These results provide insights that may be applicable to β cell replacement strategies involving the guided differentiation of ES cells or other progenitor cell types into the β cell lineage, and they suggest a molecular mechanism whereby human PDX1 mutations cause diabetes.

Authors

Jennifer M. Oliver-Krasinski, Margaret T. Kasner, Juxiang Yang, Michael F. Crutchlow, Anil K. Rustgi, Klaus H. Kaestner, Doris A. Stoffers

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Figure 1

Derivation of Pdx1ΔC/ΔC mice.

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Derivation of Pdx1ΔC/ΔC mice. (A) Targeting strategy to replace the ...
(A) Targeting strategy to replace the codon encoding Ser210 in the mouse Pdx1 locus with a termination codon (asterisk), thereby preventing translation of the C terminus. Schematic shows both exons (black rectangles), the 5′ diphtheria toxin A (DTA) gene, and the loxP-flanked 3′ neomycin resistance–thymidine kinase (NeoR-tk) cassettes (white rectangles). Black arrows indicate the location of genotyping primers. White arrows denote the location of loxP sites. X indicates sites of homologous recombination. (B) Predicted domain structure of the truncated Pdx1(1–210) protein, termed Pdx1ΔC, is represented below the wild-type full-length form of Pdx1(1–284). TAD, transactivation domain; HD, homeodomain. (CF) Pdx1+/+ and Pdx1ΔC/ΔC E13.5 pancreas stained with antisera raised against either N-terminal (N-term; red) or C-terminal (C-term; green) Pdx1 epitopes. Scale bar: 10 μm. (G) Pdx1 mRNA levels in total pancreas from Pdx1+/+, Pdx1+/ΔC, and Pdx1ΔC/ΔC pancreata measured at E13.5 (n = 7–8 per genotype; *P = 0.0001). (H) Representative Western blot of E13.5 total pancreas protein from Pdx1ΔC/ΔC, Pdx1+/ΔC, and Pdx1+/+ littermate controls using N-terminal–specific Pdx1 (top panel) and cyclophilin B (cyclo; bottom panel) antisera. Both full-length Pdx1 and truncated Pdx1ΔC are indicated. Quantitation from 3 separate Western blots (n = 9 animals per group) is shown in I. P < 0.00001.