Oxygen Tension Regulates Pancreatic β-Cell Differentiation Through Hypoxia-Inducible Factor 1α

摘要

Objective-Recent evidence indicates that low oxygen tension (pO_2) or hypoxia controls the differentiation of several cell types during development. Variations of pO_2 are mediated through the hypoxia-inducible factor (HIF), a crucial mediator of the adaptative response of cells to hypoxia. The aim of this study was to investigate the role of pO_2 in β-cell differentiation.rnResearch design and methods-We analyzed the capacity of β-cell differentiation in the rat embryonic pancreas using two in vitro assays. Pancreata were cultured either in collagen or on a filter at the air/liquid interface with various pO_2. An inhibitor of the prolyl hydroxylases, dimethyloxaloylglycine (DMOG), was used to stabilize HIF1α protein in normoxia.rnResults-When cultured in collagen, embryonic pancreatic cells were hypoxic and expressed HIF1α and rare β-cells differentiated. In pancreata cultured on filter (normoxia), HIF1α expression decreased and numerous β-cells developed. During pancreas development, HIF1α levels were elevated at early stages and decreased with time. To determine the effect of pO_2 on β-cell differentiation, pancreata were cultured in collagen at increasing concentrations of O_2. Such conditions repressed HIF1α expression, fostered development of Ngn3-positive endocrine progenitors, and induced β-cell differentiation by O_2 in a dose-dependent manner. By contrast, forced expression of HIFla in normoxia using DMOG repressed Ngn3 expression and blocked β-cell development. Finally, hypoxia requires hairy and enhancer of split (HES)l expression to repress β-cell differentiation.rnConclusions-These data demonstrate that β-cell differentiation is controlled by pO_2 through HIFla. Modifying pO_2 should now be tested in protocols aiming to differentiate β-cells from embryonic stem cells.