In kids who can’t make enough growth hormone, a peptide called GHRP‑1 (a close cousin of GHRP‑6) sparked a hormone rise in about 60% of them, similar to the classic hormone‑releasing drug GHRH. When the two were taken together, the hormone surge was much bigger than either alone, showing a strong synergy. The spikes were smaller than those seen in healthy people, but the study proves that these secretagogue peptides can still work even when the body’s own GHRH system is weak.

The GH-releasing peptides (GHRPs) are a family of hexa- and heptapeptides that specifically stimulate GH secretion in normal adults and children. They would be an attractive potential form of therapy for GH deficiency (GHD) if they are also active in these patients. Their action, however, appears to result at least in part through hypothalamic responses, which may be impaired in GHD, and their ability to evoke a GH response in these patients must therefore be directly examined. We studied GH responses to the heptapeptide GHRP-1 in 22 prepubertal children with previously documented GHD and growth failure and compared them to responses to GHRH and the two peptides administered together. Patients received 1 microgram/kg GHRH-(1-44)NH2, 1 microgram/kg GHRP-1, or both, in random order. Tests were separated by at least 1 week. GHRP-1 evoked a significant GH response in 60% of the patients, comparable to the 68% who responded to GHRH. The magnitudes of the peak responses were similar (7.5 +/- 8.0 micrograms/L to GHRP-1 and 11.2 +/- 12.1 to GHRH), although the duration of the GH rise was briefer after GHRP-1. Both responses were lower than those previously observed in normal subjects. There was a marked synergy in responses when the two were given together; the GH peak (34.2 +/- 44.8 micrograms/L) significantly exceeded the sum of the individual responses, and the proportion of patients who responded (86%) was also higher. Thus, despite the absence of endogenous GHRH reflexes in most patients with GHD, these children can respond to GHRP-1 similarly to GHRH, and GHRP-1 can markedly enhance the response to GHRH. These results suggest that GHRPs or their analogs could form the basis for therapy of GHD.