Abstract
Adrenal corticosteroids have well known and profound effects on neurons and neuroendocrine cells, but the underlying cellular mechanisms are poorly understood. The present study analyzed membrane currents and ACTH release in AtT20 mouse pituitary corticotrope tumor cells. Patch-clamp analysis revealed a significant and selective inhibition of calcium-activated (BK-type) potassium channels upon activation of protein kinase A by corticotropin-releasing factor or 8-chlorophenylthio-cAMP. The synthetic glucocorticoid dexamethasone had no effect on potassium currents evoked by depolarization but prevented the inhibitory effect of protein kinase A activators. The action of dexamethasone had the hallmarks of protein induction, i.e. a lag time and sensitivity to inhibitors of DNA transcription and mRNA translation. In parallel, the specific BK channel blocker iberiotoxin abolished early glucocorticoid inhibition of corticotropin-releasing factor-stimulated ACTH secretion. In summary, the present data show that glucocorticoid-induced proteins render BK-type channels resistant to inhibition by protein kinase A and that this action of the steroid is pivotal for its early inhibitory effect on the secretion of ACTH.
Highlights
Stressors provoke a cohort of homeostatic defense mechanisms by the central nervous, the immune, and the metabolic control systems of the body [1]
CRF stimulates ACTH release through activation of protein kinase A and the enhancement of calcium influx through voltageoperated calcium channels (10 –12)
This report describes a correlated study of the regulation of BK channels and ACTH release by CRF and glucocorticoids in the mouse anterior pituitary corticotrope cell line AtT20
Summary
Stressors provoke a cohort of homeostatic defense mechanisms by the central nervous, the immune, and the metabolic control systems of the body [1]. CRF stimulates ACTH release through activation of protein kinase A and the enhancement of calcium influx through voltageoperated calcium channels (10 –12).
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