Infusion of beta-endorphin has no suppressive effect on the releasing hormone-stimulated pituitary-adrenal-axis of normal human subjects.

The existence of a short-loop feedback inhibition of pituitary ACTH release by administration of beta-endorphin was postulated. However, data on the effect of peripherally administered beta-endorphin in humans are highly controversial. We infused human synthetic beta-endorphin at a constant rate of 1 microgram.kg-1.min-1 or normal saline to 7 normal volunteers for 90 min. Thirty min after starting the beta-endorphin or placebo infusion, releasing hormones were injected as a bolus iv (oCRH and GHRH 1 microgram/kg, GnRH 100 micrograms, TRH 200 micrograms) and blood was drawn for measurements of beta-endorphin immunoreactivity, all other pituitary hormones, and cortisol. Infusion of beta-endorphin resulted in high beta-endorphin plasma levels with a rapid decrease after the infusion was stopped. During the control infusion, beta-endorphin plasma levels rose in response to CRH. Plasma ACTH and serum cortisol levels in response to the releasing hormone were not different in subjects infused with beta-endorphin or placebo. The PRL response to TRH was significantly higher after beta-endorphin than after placebo (area under the stimulation curve 1209 +/- 183 vs 834 +/- 104 micrograms.l-1.h). There was no difference in the response of all other hormones measured. Our data on ACTH and cortisol secretion do not support the concept of a short-loop negative feedback of beta-endorphin acting at the site of the pituitary.