Physiological levels of growth hormone fail to suppress growth hormone releasing hormone (1-29) NH2-stimulated growth hormone secretion in man.

We studied 11 normal adult males. Six subjects (Study A) received a bolus of saline or of 50 mU biosynthetic human growth hormone (r-hGH) or a one hour iv infusion of r-hGH (80 mU/h) in random order. On each occasion this was followed by an iv bolus of GHRH (1-29) NH2 (100 micrograms) 90 minutes after the first event. Five subjects (Study B) received a bolus iv injection of saline or of 500 mU r-hGH followed by iv GHRH (1-29) NH2 (100 micrograms) 90 minutes later. There was no significant difference in the serum GH concentrations achieved following the 50 mU bolus or iv infusion of r-hGH (range 5.6-67.0 mU/l). Higher concentrations of GH (mean +/- SE, 238.4 +/- 21.3 mU/l) were achieved with the 500 mU bolus of r-hGH. The peak GH responses to iv GH-RH (1-29) NH2 were similar in all instances. The most important factor determining the response to exogenous GHRH (1-29) NH2 was the serum GH concentration at the time that the GHRH (1-29) NH2 was administered and the mode of r-hGH administration (iv bolus or iv infusion). These data demonstrate that within the range of physiological serum GH concentrations the mode of presentation of GH (bolus or infusion) and GH secretory status are the most important factors in determining GH responsivity to GHRH. Under these circumstances GH would appear not to participate in a rapid-acting short-loop negative feedback mechanism in man as the response to exogenous GHRH was not attenuated.