Glucocorticoid withdrawal, depending on the dose and duration of treatment, results in a transient but sometimes prolonged reduction in hypothalamo-pituitary-adrenal (HPA) axis secretory responsiveness. As the anatomic basis of HPA axis suppression remains uncertain, we have directly examined changes in trophic activity within the rat anterior pituitary gland following dexamethasone withdrawal and re-treatment. Treatment of adrenalectomised, male Wistar rats with dexamethasone results in a discrete, highly significant burst of apoptosis in the anterior pituitary with concurrent suppression of mitosis. Despite a surge in mitotic activity immediately after dexamethasone withdrawal, calculated total anterior pituitary cell populations remain below that seen in untreated adrenalectomised controls. Repeated exposures to dexamethasone show that the dexamethasone-sensitive cell population that is deleted by apoptosis is partially but not completely restored. As the amplitude of apoptotic bursts induced by second and third dexamethasone exposures are similar but smaller than that induced by initial exposure, it appears that the very first exposure to dexamethasone deletes a subset of anterior pituitary cells that are either not restored at all, or are only replaced very slowly. The reduced proportion of corticotrophs contributing to the increase in mitotic index after dexamethasone withdrawal corroborates this. Although continued cell turnover within the pituitary predicts that the absolute cellular deficit would diminish with time, the effects seen may contribute to the delayed recovery of pituitary axis function following cessation of glucocorticoid treatment.
Anterior pituitary trophic responses to dexamethasone withdrawal and repeated dexamethasone exposures
