Generation of living color transgenic zebrafish to trace somatostatin-expressing cells and endocrine pancreas organization

Abstract

In the present study, both gfp and rfp transgenic zebrafish lines using a 2.5-kb zebrafish somatostain2 ( sst2) promoter were generated. During embryonic development, expression of GFP/RFP in the endocrine pancreas of transgenic embryos was initiated at ∼20 hpf and the number of GFP/RFP positive cells in the pancreas increased in subsequent stages; thus, our newly generated Tg( sst2:gfp) and Tg( sst2:rfp) lines faithfully recapitulated sst2 expression in endocrine pancreatic cells and provided a useful tool in analyzing the development of Sst2-producing δ-cells in the pancreas. By crossing these new transgenic lines with previously available transgenic lines targeted in insulin (Ins)-producing β-cells, Tg( ins:gfp) and Tg( ins:rfp), in combination with immunodetection of glucagon (Gcg)-producing α-cells and pancreatic polypeptide (PP)-producing PP-cells, the organization and composition of endocrine islets were investigated in both embryonic and adult pancreas. We found that there was always a big cluster of endocrine cells (principal islet) in the anterior-dorsal pancreas, followed by numerous smaller clusters (variable in size) of endocrine cells (secondary islets) along the anterior–posterior axis of the pancreas. All four types of endocrine cells were found in the principal islet, but secondary islets may or may not contain PP-cells. In addition, there were also discrete endocrine cells throughout the pancreas. In all co-localization experiments, we did not find any endocrine cells positive for more than one hormone markers, suggesting that these endocrine cells produce only a single hormone. In both principal and secondary islets, we found that β-cells were generally located in the center and non- β cells in the periphery; reminiscent of the “mantel–core” organization of islets of Langerhans in mammals where β-cells form the core and non- β-cells the mantel. In zebrafish primary islet, β-cells constitute most of the mass (∼50%), followed by δ-cells and α-cells (20–25% each), and PP-cells (1–2%); this is also similar to the composition of mammalian islets.