The pituitary gland represents the endocrine core, governing the body's hormonal landscape by adapting its cellular composition to changing demands. It is assumed that stem/ progenitor cells are involved in this remodeling. Recently, we uncovered a candidate stem/progenitor cell population in the anterior pituitary. Here, we scrutinized this ''side population'' (SP) and show that, unexpectedly, not the subset expressing high levels of ''stem cell antigen-1'' (Sca1 high ) but the remainder non-Sca1 high fraction clusters the pituitary progenitor cells. Transcriptomal interrogation revealed in the non-Sca1 high SP upregulated expression of the pituitary stem/progenitor cell markers Sox2 and Sox9, and of multiple factors critically involved in pituitary embryogenesis. The non-Sca1 high SP encloses the cells that generate spheres and display multipotent hormone differentiation capacity. In culture conditions selecting for the nonSca1 high subset within the SP, stem cell growth factors that induce SP expansion, affect transcription of embryonic factors, suggesting impact on a developmental program that unfolds within this SP compartment. Non-Sca1 high SP cells, revealed by Sox2 expression, are observed in the postulated periluminal stem/progenitor cell niche, but also in small groups scattered over the gland, thereby advocating the existence of multiple niches. In early postnatal mice undergoing a pituitary growth wave, Sox2 1 cells are more abundant than in adults, concordant with a larger SP and higher non-Sca1 high proportion. Together, we tracked down pituitary progenitor cells by SP phenotype, and thus provide a straightforward method to isolate and scrutinize these cells from the plastic pituitary ex vivo, as well as a culture system for in-depth exploration of their regulatory network.
The pituitary gland constitutes, together with the hypothalamus, the regulatory core of the endocrine system. Whether the gland is capable of cell regeneration after injury, in particular when suffered at adult age, is unknown. To investigate the adult pituitary's regenerative capacity and the response of its stem/progenitor cell compartment to damage, we constructed a transgenic mouse model to conditionally destroy pituitary cells. GHCre/iDTR mice express diphtheria toxin (DT) receptor after transcriptional activation by Cre recombinase, which is driven by the GH promoter. Treatment with DT for 3 d leads to gradual GH(+) (somatotrope) cell obliteration with a final ablation grade of 80-90% 1 wk later. The stem/progenitor cell-clustering side population promptly expands after injury, concordant with the immediate increase in Sox2(+) stem/progenitor cells. In addition, folliculo-stellate cells, previously designated as pituitary stem/progenitor cells and significantly overlapping with Sox2(+) cells, also increase in abundance. In situ examination reveals expansion of the Sox2(+) marginal-zone niche and appearance of remarkable Sox2(+) cells that contain GH. When mice are left after the DT-provoked lesion, GH(+) cells considerably regenerate during the following months. Double Sox2(+)/GH(+) cells are observed throughout the regenerative period, suggesting recovery of somatotropes from stem/progenitor cells, as further supported by 5-ethynyl-2'-deoxyuridine (EdU) pulse-chase lineage tracing. In conclusion, our study demonstrates that the adult pituitary gland holds regenerative competence and that tissue repair follows prompt activation and plausible involvement of the stem/progenitor cells.
When sealing iatrogenic membrane defects in the foetal rabbit model, enrichment of collagen plugs with platelets and amniotic fluid-derived heterologous foetal cells increases local cell proliferation.
Our in vitro experiments suggest that PRP plugs may provide a long-lasting, waterproof sealing of fetal membrane defects and stimulate fetal membrane repair.
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