Localization of putative pituitary stem/progenitor cells in female dairy cattle

Differentiation potential of SOX2-positive stem cells in the bovine pituitary gland

The pituitary gland is the master endocrine gland, harboring stem cells with various genetic characteristics; however, data from non-rodent and non-human sources are scarce. In this study, we isolated putative stem cells from the bovine pituitary gland and investigated their potential for differentiation into hormone-producing cells. Immunohistochemical analysis revealed that in calves and heifers, stem cell marker sex-determining region Y-box 2 (SOX2)-positive cells were widely present in the pituitary gland and partially co-localized with anterior pituitary hormones. Next, a single-cell suspension of primary anterior lobe cells from bovines aged 0 and 12 months was subjected to two-dimensional culture. Consequently, some cells proliferated in the culture dishes. The expression levels of Sox2 and several other stem cell markers were higher in these cells after culture. In addition, almost all proliferating cells were positive for SOX2, whereas all were negative for hormones. In three-dimensional cultures, SOX2-positive cells presented a spheroid-like morphology and differentiated into endocrine cells. These results provide evidence that SOX2-positive cells are pituitary stem cells with the potential to differentiate into hormone-producing cells, regardless of age. Our data lay a theoretical foundation for further studies on controlling fundamental processes, such as body growth, reproduction, and lactation.

EpCAM Is a Surface Marker for Enriching Anterior Pituitary Cells From Human Hypothalamic-Pituitary Organoids

Human stem cell-derived organoid culture enables the in vitro analysis of the cellular function in three-dimensional aggregates mimicking native organs, and also provides a valuable source of specific cell types in the human body. We previously established organoid models of the hypothalamic-pituitary (HP) complex using human pluripotent stem cells. Although the models are suitable for investigating developmental and functional HP interactions, we consider that isolated pituitary cells are also useful for basic and translational research on the pituitary gland, such as stem cell biology and regenerative medicine. To develop a method for the purification of pituitary cells in HP organoids, we performed surface marker profiling of organoid cells derived from human induced pluripotent stem cells (iPSCs). Screening of 332 human cell surface markers and a subsequent immunohistochemical analysis identified epithelial cell adhesion molecule (EpCAM) as a surface marker of anterior pituitary cells, as well as their ectodermal precursors. EpCAM was not expressed on hypothalamic lineages; thus, anterior pituitary cells were successfully enriched by magnetic separation of EpCAM+ cells from iPSC-derived HP organoids. The enriched pituitary population contained functional corticotrophs and their progenitors; the former responded normally to a corticotropin-releasing hormone stimulus. Our findings would extend the applicability of organoid culture as a novel source of human anterior pituitary cells, including stem/progenitor cells and their endocrine descendants.