BDNF regulates pituitary stem cell engagement towards precursor state
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Kevin Sochodolsky Konstantin Khetchoumian Aurelio Balsalobre Ryan M Feeley Margaret E Rice Probir Chakravarty Robin Lovell-Badge Karine Rizzoti Jacques DrouinThis article is a preprint. Preprints have not been peer-reviewed.
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Abstract
Following their engagement towards differentiation, tissue stem cells often transit through a precursor state that is difficult to define because of its transient nature; similarly, the precise role of lineage precursors in implementation of tissue architecture and function is unknown. In the present work, we used two mouse models of deficient feedback regulation to characterize precursors of the pituitary corticotrope lineage that regulates the stress response. Both the POMC knockout and adrenalectomized mouse models develop glucocorticoid deficiency and compensatory accumulation of corticotrope precursors that have so far eluded characterization. We found that pre-corticotrope differentiation depends on the lineage-specific factor Tpit and is repressed by glucocorticoids. We identified brain-derived neurotrophic factor (BDNF) as the signal that engages pituitary stem cells towards differentiation in these models as well as in normal pituitary development. A glucocorticoid-sensitive BDNF autocrine loop active in pre-corticotropes turns these cells into signaling hubs for maintenance of pituitary-adrenal homeostasis.
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bioRxiv
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