Heijning BJ, Herik IK, Rots NY, Greidanus TB. Enhanced Neurohypophyseal Vasopressin Release is Associated with Increased Opioid Inhibition of Oxytocin Release.
J Neuroendocrinol 1991;
3:57-64. [PMID:
19215447 DOI:
10.1111/j.1365-2826.1991.tb00239.x]
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Abstract
Abstract We tested the hypothesis of a cross-inhibition of oxytocin (OT) release by endogenous opioid peptides co-released with vasopressin (VP). This opioid cross-inhibition resulted in a selective block of OT release and hence in preferential release of VP. The effects of the opiate receptor antagonist naloxone were tested on neurohypophyseal VP release during dehydration, ethanol administration and sulphated cholecystokinin octapeptide (CCK-8S) application, assuming that the inhibition of pituitary OT release by endogenous opioids increases as neurohypophyseal VP output increases. A high VP output was found to coincide with increased inhibition of OT release: Subcutaneous injection of graded doses of naloxone (30 min prior to decapitation), augmented OT plasma levels significantly more in 24 h water-deprived male rats than in normally hydrated rats. Naloxone had no effect on VP release. Ethanol (10% in saline) administered intragastrically 50 min prior to decapitation and 20 min before subcutaneous naloxone (5 mg/kg) resulted in the inhibition of VP output. The ethanol treatment resulted in a rise in plasma OT levels that was additional to the effect of naloxone. These features were present in normally hydrated as well as in 24 h water-deprived animals, but were more pronounced in the latter group. Peripheral CCK-8S administration induces an abrupt and selective secretion of OT. Blocking the opioid inhibition of OT release with naloxone resulted in a significant rise of OT compared to that with CCK-8S alone. The magnitude of the opioid inhibition coincided with the activity of the VP system, and a higher dose of naloxone was needed to potentiate the CCK-8S effect on OT release in the water-deprived group than in euhydrated rats. No effect of CCK-8S and/or naloxone was found on VP plasma levels. The data indicate that opioid peptides co-released with VP (like dynorphin) may be responsible for cross-inhibition of OT release during dehydration. This suggests that dynorphin acts in a paracrine way, making it a strong candidate for this role.
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