Fish face harsh and fluctuating ion composition in fresh water, therefore it is important that fish have to develop the regulatory mechanisms for ion homeostasis. Vitamin D3 is a group of fat-soluble secosteroids. It functions as a hormone and participates in many physiological reactions in animals. Vitamin D3 has been documented to be an endocrine of regulating ion uptake in mammals, however, the role of vitamin D3 on the different ions is still unclear in teleosts. In the present study, we focus on whether vitamin D3 controls the regulation of different ions. Since ionocytes primarily regulates ion transport in embryonic skin and/or adult gills of fish, we further explore whether vitamin D3 affects the proliferation or differentiation of ionocytes in teleosts. Plenty of genetic databases and mutants as well as the applicability of many molecular/cellular physiological approaches are advantages in using zebrafish (Danio rerio); a good model to investigate the molecular physiological mechanisms of epithelial ion uptake by vitamin D3 in teleosts. First, we observed whole-body content of Ca、Na and Cl as well as the expressions of ionocyte-related genes were up-regulated after vitamin D3 treatment. Subsequently, we further study the regulatory mechanism for ionocytes by vitamin D3. The data showed that vitamin D3 stimulated the differentiation of ionocytes by increasing the 4 expression of foxi3a, and the ionic regulation by vitamin D3 were mediated by vitamin D3-VDR signaling in zebrafish. Taken together, we demonstrated that vitamin D3controls the regulation of ionocytes differentiation through modulating activities of foxi3a to increase ionocyte densities, as well as the expressions of ion transporters and ultimately regulate the functions of ionocytes.