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Glucocorticoid Induction of Lactotrophs and Prolactin Gene Expression in Chicken Embryonic Pituitary Cells: A Delayed Response Relative to Stimulated Growth Hormone Production

Department of Animal and Avian Sciences (X.F., T.E.P.) and Molecular and Cell Biology Program (T.E.P.), University of Maryland, College Park, Maryland 20742

Address all correspondence and requests for reprints to: Dr. Tom E. Porter, Department of Animal and Avian Sciences, University of Maryland, College Park, Maryland 20742. E-mail: TEPorter{at}umd.edu.

We reported that corticosterone (CORT) induces GH cell differentiation in chicken embryonic pituitary cells in culture and in living embryos. The present study tested whether CORT could also induce prolactin (PRL) cell differentiation in vitro. CORT increased the percentage of GH cells in cultures of embryonic d (e) 13 pituitary cells after 1 d of treatment and PRL cells after 3 d of incubation. Dual immunofluorescence showed that the PRL cells induced by CORT did not contain GH, indicating they were separate cell populations. Similar PRL cell responses were also observed in cultures of e11, e15, and e17 pituitary cells. ZK98299, a glucocorticoid receptor (GR) antagonist, suppressed CORT effects, verifying involvement of GR. Northern blot analysis indicated that CORT increased GH mRNA levels after 1 d of treatment. In contrast, increases in PRL mRNA levels were delayed and observed after 3 d of treatment. Induction of a luciferase reporter driven by the PRL promoter was also delayed until 3 d of CORT treatment. Dual-labeling immunofluorescence indicated that the majority of PRL cells induced by CORT were not labeled with bromodeoxyuridine, suggesting that lactotrophs induced by CORT do not result from cell proliferation. Proportions of pituitary-specific transcription factor (Pit-1)-containing cells and the total amount of Pit-1 protein spontaneously increased with increasing culture time. However, no effect of CORT on Pit-1 levels or the number of Pit-1-containing cells were observed. We conclude that CORT can induce lactotroph differentiation in culture and that longer CORT exposure is needed for lactotroph induction compared with somatotroph induction. The effects of CORT on PRL cell induction are GR dependent and involve an increase in PRL gene expression. PRL cell induction by CORT is not associated with an increase in Pit-1-containing cells.

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