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First published online 13 August 2003
doi: 10.1242/dev.00653

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Combined activities of hedgehog signaling inhibitors regulate pancreas development

¹ Diabetes Center, Department of Medicine, University of California, San Francisco, CA 94143, USA
² Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138, USA
³ Cardiovascular Research Institute, University of California, San Francisco, CA 94143, USA

View larger version (102K): [in a new window]   Fig. 6. Combined activities of Hhip and Ptch during pancreas development and endocrine cell development. Hematoxylin/Eosin staining (A-D) shows a stepwise decline in pancreatic epithelial size and branching associated with the loss of Hhip (Hip1 in figure) and Ptch (Ptch1 in figure) alleles (throughout the figure dorsal is towards the top and anterior towards the left). Morphometric analysis was used to outline and quantify pancreatic epithelium (A-D,K, blue Hhip+/+;Ptch+/+, n=5; green, Hhip+/+;Ptch+/–, n=3; red, Hhip–/–;Ptch+/+, n=3; yellow, Hhip–/–;Ptch+/–; n=4; #no significant difference, *P<0.05, **P<0.01). Staining for glucagon-(red; E-G) and Isl1-(brown; H-J) expressing cells within the pancreatic epithelium and quantification of both cell types (L, green, Hhip+/+;Ptch+/– n=3; red, Hhip–/–;Ptch+/+ n=3; yellow, Hhip–/–;Ptch+/– n=3; #no significant difference, *P<0.05; Glucagon, Mann-Whitney test; Isl1, Student's t-test) reveals additive requirements of Hhip and Ptch for endocrine cell differentiation. Arrowheads indicate Isl1-positive cells within pancreatic epithelium. Yellow cell in E correspond to autofluorescing erythrocytes.

View larger version (109K): [in a new window]   Fig. 1. Hhip (Hip1 in figure) is expressed at low levels in developing and mature pancreas. Staining for ß-galactosidase activity in heterozygous Hhip mice that carry the lacZ gene under control of the endogenous Hhip promoter reveals that high level expression within the fore-midgut region is confined to stomach and duodenum, but is excluded from pancreatic tissue (A,C,E). Staining for ß-galactosidase activity in Ptch-lacZ knock-in embryos (B,D; Ptch1 in figure). Low level of ß-galactosidase activity is observed in adult islets of Hhip-lacZ knock-in mice (F). RT-PCR analysis of Hhip gene expression of pancreatic tissue at different stages reveals low-level expression (G). Top lane, Hhip expression; bottom lane, mouse ribosomal protein L19 expression as an internal control. d, duodenum; dp, dorsal pancreas; s, stomach; sp, spleen; vp, ventral pancreas.

View larger version (88K): [in a new window]   Fig. 2. Hhip (Hip1 in figure) function is required for inhibition of Hh signaling and proper pancreas morphogenesis. Staining for Hhip promoter regulated ß-galactosidase activity in heterozygous and homozygous embryos (A,B; E12.5). ß-galactosidase activity in stomach (arrowhead) and duodenum (arrows) is significantly increased in Hhip–/– embryos. `Real time' PCR analysis of Gli expression in E17.5 pancreas (C). Gli expression levels are shown relative to the level of actin mRNA. To facilitate comparison, expression in wild-type pancreas (white bar) has been adjusted to `1'. Hhip+/– (2.7±1.4; light-gray bar) and Hhip–/– mutant pancreas (7.8±0.6; dark-gray bar). Error bars shown are ±s.d. Pancreas and spleen (arrows) are deformed in Hhip–/– embryo at E18.5 (F,G) compared with wild type (D,E). Higher magnification reveals that the connection between ventral pancreas and duodenum is confined to the dorsal region of the duodenum (E, broken line) in wild-type embryos but extends laterally in Hhip–/– embryos (G, broken red line). (H-K) In some cases, ectopic pieces of pancreas are integrated within the duodenum (red arrows), as shown by Feulgen staining (I) and staining for amylase (K), a marker of pancreatic exocrine cells. d, duodenum; dp, dorsal pancreas; li, liver; s, stomach; sp, spleen; vp, ventral pancreas.

View larger version (71K): [in a new window]   Fig. 4. Islet mass and ß-cell proliferation is decreased in Hhip–/– embryos (Hip1 in figure). Islets were stained with antibodies directed against centrally located insulin (green) and marginally located glucagon producing cells (red). Hhip function is required for normal islet morphogenesis (A,B). Clusters of insulin- and glucagon-positive cells form but are significantly smaller than the ones in control embryos (wild-type or heterozygotes, compare B with A). To adjust for differences in body mass, pancreas weight and islet area were divided by body weight. (C, blue, control, n=6; red, Hhip–/–, n=5; *P<0.05, **P<0.01). Quantification of islet areas revealed a 45% reduction that is more pronounced than the general loss of pancreatic tissue (C, blue, control; red, Hhip–/–). The reduction in islet mass is due to the loss of larger islets (>4000 µm2) while the number of smaller islets (>4000 µm2) is maintained in Hhip mutants (D, blue, control, n=5; red, Hhip–/–, n=5; #no significant difference, **P<0.01). Staining for the nuclear marker Ki-67 showed that proliferation of ß-cells at E18.5 is reduced by 39% (E, blue, control, n=3; red, Hhip–/–, n=5; *P<0.05). Changes in islet morphogenesis and ß-cell proliferation are not due to incomplete cell differentiation (F-I). ß-cells express mature markers, including Pdx1 (F,G; insulin, green; Pdx1, red) and glucose transporter 2 (H,I; insulin, green; Glut2, red). Error bars shown are ±s.d.

View larger version (124K): [in a new window]   Fig. 3. Histological analysis of pancreatic tissue at E18.5. Hematoxylin/Eosin (A,B) and amylase (red; C,D) staining of E18.5 pancreatic tissue shows normal exocrine architecture in Hhip–/– (Hip1 in figure; B,D). By contrast, clustering (A,B; broken yellow lines) and size of islets as shown by insulin staining (green; C,D) is impaired in Hhip–/– embryos (B,D). Expression of smooth muscle actin is confined to blood vessels in mutants and wild type (E,F), indicating that loss of Hhip function does not lead to transformation of pancreatic mesenchyme into duodenal mesoderm.

View larger version (77K): [in a new window]   Fig. 5. Reduction of Fgf10 expression in Hhip (Hip1 in figure) mutant pancreas. Whole-mount in situ hybridization of Fgf10 expression in E10.5 (A,B) and E11.5 (C,D) pancreatic tissue in control (A,C) and Hhip–/– embryos (B,D). Fgf10 expression (blue) was attenuated in Hhip–/– mutant pancreas bud at E10.5 (B); however, Fgf10 levels were recovered at E11.5 (D). Staining of control and mutant tissues was performed in parallel to detect quantitative differences in Fgf10 expression. d, duodenum; db, dorsal pancreas bud; lb, lung bud; st, stomach; vb, ventral pancreas bud.

View larger version (64K): [in a new window]   Fig. 7. Hhip and Ptch (Hip1 and Ptch1 in figure) regulate mesenchymal-epithelial interaction in posterior stomach. Stomach morphology and gene expression in mutant embryos were analyzed at E12.5. Strong expression of Isl1 is observed in posterior stomach of Hhip+/+;Ptch+/– mice (A). Homozygous Hhip mutants display reduced Isl1 expression (B) that is further diminished in Hhip–/–Ptch+/– embryos (C). Morphometric analysis of posterior stomach mesenchyme and epithelium reveals no change in epithelial or mesenchymal area in Hhip+/+;Ptch+/– mice compared with wild type controls (D, blue columns; Hhip+/+;Ptch+/+, n=7; green columns; Hhip+/+;Ptch+/–, n=4). By contrast, gradual epithelial thinning and mesenchymal thickening is in observed in Hhip–/– and Hhip–/–;Ptch+/– embryos (red columns; Hhip–/–;Ptch+/+, n=4; yellow column; Hhip–/–;Ptch+/–, n=4; #no significant difference, *P<0.05, **P<0.01). Error bars shown are ±s.d.