Imaging Human Pancreatic Endocrinogenesis During Early Prenatal Life.

UNLABELLED

Murine pancreatic endocrinogenesis has been extensively studied, but human data remain scarce due to limited sample availability. Here, we first built a large collection of human embryonic and fetal pancreases covering the first trimester of pregnancy to explore human endocrinogenesis. Using an experimental pipeline combining in toto staining, tissue clearing, and light-sheet fluorescence microscopy, we show that insulin-, glucagon-, and somatostatin-positive cells appear simultaneously at Carnegie stage (CS) 16. This contrasts with rodents, in which glucagon-positive cells appear first, followed by insulin-positive and, finally, somatostatin-positive cells and highlights interspecies differences. We also detected bihormonal endocrine cells in 7 of 9 human pancreases between CS16 and CS18, which were no longer detected at later stages. We observed that cell distribution within human fetal islets resembles adult mouse islets, with a core of β-cells surrounded by α- and δ-cells, differing from a more complex arrangement in adult human islets. This, in connection with the small size of human fetal islets when compared with adult islets, suggests that adult human islets may form by fusion of preexisting islets, in contrast to the mouse fission model. Together, our study provides a detailed and comprehensive description of the spatiotemporal dynamics of human pancreatic endocrinogenesis.

ARTICLE HIGHLIGHTS

Data on human pancreas development are limited and derived from two-dimensional staining. We overcome this using in toto staining, tissue clearing, and light-sheet imaging. We sought to understand when and where endocrine cells first emerge and how they cluster. First, endocrine cell types appear simultaneously, and early pancreases contain bihormonal cells. There are morphometric differences between fetal and adult islets. We propose a mechanism of adult islet formation by fusion: a new base to reconstitute in vitro islet neogenesis.