Direct Inhibitory Effect of Glucocorticoids on Corticotrophin-Releasing Hormone Gene Expression in Neurones of the Paraventricular Nucleus in Rat Hypothalamic Organotypic Cultures

• Published in: Journal of neuroendocrinology Vol. 20; no. 9; pp. 1045 - 1051
• Main Authors: Bali, B., Ferenczi, S., Kovács, K. J.
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.09.2008; Blackwell Science
• Subjects: Animals; Biological and medical sciences; Cells, Cultured; Colforsin - pharmacology; corticosterone; Corticotropin-Releasing Hormone - genetics; Corticotropin-Releasing Hormone - metabolism; dexamethasone; Down-Regulation - drug effects; DRB; forskolin; Fundamental and applied biological sciences. Psychology; Glucocorticoids - pharmacology; in vitro; Models, Biological; Neurons - drug effects; Neurons - metabolism; Organ Culture Techniques; Paraventricular Hypothalamic Nucleus - drug effects; Paraventricular Hypothalamic Nucleus - metabolism; Rats; Receptors, Steroid - agonists; Sodium Channel Blockers - pharmacology; tetrodotoxin; Tetrodotoxin - pharmacology; Vertebrates: endocrinology; Rat; Corticosterone; Central nervous system; Corticotropin releasing factor; Organotypic culture; Hypothalamus; Paraventricular nucleus; Glucocorticoid; Encephalon; Hormone releasing factor; Corticosteroid; forskolin; Dexamethasone; Steroid hormone; Rodentia; Gene expression; In vitro; Diagnostic agent; Hypothalamic hormone; Vertebrata; Mammalia; Corticorelin; DRB; Analog; Animal; Adrenal hormone; tetrodotoxin
• ISSN: 0953-8194; 1365-2826
• DOI: 10.1111/j.1365-2826.2008.01759.x

Corticotrophin‐releasing hormone (CRH) in the parvocellular neurosecretory neurones of hypothalamic paraventricular nucleus governs neuroendocrine stress cascade and is the major target of the negative feedback effect of corticosteroids. To assess whether glucocorticoids exert their inhibitory effect on CRH expression directly on parvocellular neurones or indirectly through a complex neuronal circuit, we examined the effect of corticosterone (CORT) and dexamethasone (DEX) on CRH mRNA levels in slice explant cultures of the rat hypothalamus. Organotypic slice cultures were prepared from 6 days old rat pups and maintained in vitro for 14 days. CRH mRNA expression was measured by in situ hybridisation histochemistry. Under basal conditions, CRH mRNA expressing cells were exclusively revealed in the paraventricular region along the third ventricle. Inhibition of action potential spike activity by tetrodotoxin (TTX, 1 μm) reduced CRH mRNA signal in the organotypic cultures. CORT (500 nm) or DEX (50 nm) treatment for 24 h significantly inhibited CRH expression in the parvocellular neurones and this effect of corticosteroids was not affected following blockade of voltage dependent sodium channels by TTX. Forskolin‐stimulated CRH mRNA levels in the paraventricular nucleus were also inhibited by CORT or DEX in the presence and in the absence of TTX. These studies identify paraventricular CRH neurones as direct target of corticosteroid feedback. Type II corticosteroid receptor agonists act directly on paraventricular neurones to inhibit basal and forskolin‐induced CRH mRNA expression in explant cultures of the rat hypothalamus.