Abstract
We have isolated and characterized a novel zebrafish pancreas mutant. Mutant embryos lack expression of isl1 and sst in the endocrine pancreas, but retain isl1 expression in the CNS. Non-endocrine endodermal gene expression is less affected in the mutant, with varying degrees of residual expression observed for pdx1, carbA, hhex, prox1, sid4, transferrin and ifabp. In addition, mutant embryos display a swollen pericardium and lack fin buds. Genetic mapping revealed a mutation resulting in a glycine to arginine change in the catalytic domain of the aldh1a2 gene, which is required for the production of retinoic acid from vitamin A. Comparison of our mutant (aldh1a2um22) to neckless (aldh1a2i26), a previously identified aldh1a2 mutant, revealed similarities in residual endodermal gene expression. In contrast, treatment with DEAB (diethylaminobenzaldehyde), a competitive reversible inhibitor of Aldh enzymes, produces a more severe phenotype with complete loss of endodermal gene expression, indicating that a source of Aldh activity persists in both mutants. We find that mRNA from the aldh1a2um22 mutant allele is inactive, indicating that it represents a null allele. Instead, the residual Aldh activity is likely due to maternal aldh1a2, since we find that translation-blocking, but not splice-blocking, aldh1a2 morpholinos produce a phenotype similar to DEAB treatment. We conclude that Aldh1a2 is the primary Aldh acting during pancreas development and that maternal Aldh1a2 activity persists in aldh1a2um22 and aldh1a2i26 mutant embryos.
Highlights
Similar to the pancreas of other vertebrates, the zebrafish pancreas consists of an endocrine and an exocrine portion
We find that injecting aldh1a2 translational MO (tMO), completely blocks expression of hhex (Figure 5C), prox1 (Figure 5E) and pdx1 (Figure 5G), producing a phenotype indistinguishable from the DEAB phenotype and more severe than the aldh1a2 mutant phenotype, while embryos injected with a mismatch morpholino oligo (MO) control show wild type expression of all endoderm markers (Figure 5B, D, F)
We report results from an ENU (N-ethyl-N-nitrosourea) screen for genes involved in endocrine pancreas development
Summary
Similar to the pancreas of other vertebrates, the zebrafish pancreas consists of an endocrine and an exocrine portion. The zebrafish exocrine pancreas consists of acinar cells that release digestive enzymes into the intestine and the endocrine pancreas is composed of five cell types that secrete hormones directly into the blood stream; insulin producing b-cells, somatostatin producing dcells, glucagon producing a-cells, pancreatic polypeptide hormone secreting PP-cells and ghrelin producing e-cells [1,2]. By 40 hpf, the ventral bud has formed and is composed of exocrine cells as well as a few endocrine cells. By 52 hpf, the two buds have merged to form one organ on the right side of the embryo, consisting of a single islet of endocrine cells surrounded by the exocrine pancreas [3,4]
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