In obese people, high blood fats (free fatty acids) blunt the growth hormone (GH) boost you get from secretagogues like GHRP‑6. Lowering those fats with a drug called acipimox didn’t raise GH on its own, but when the drug was taken before GH‑stimulating agents, the GH spikes were much larger – even the strongest combo (GHRH + GHRP‑6) saw a ~50% increase. This suggests that cutting free fatty acids first can make GHRP‑6 work better.

GH secretion in response to provocative stimuli is blunted in obese patients. On the other hand, increases in plasma free fatty acids (FFA) inhibit the GH response to a variety of stimuli, and FFA levels in plasma are increased with obesity. To ascertain whether FFA might be responsible for the GH secretory alterations of obesity, we studied spontaneous and stimulated GH secretion in 31 obese patients after FFA reduction by acipimox, a lipid-lowering drug devoid of serious side-effects. Each subject underwent two paired tests. In one, acipimox was administered orally at a dose of 250 mg at -270 min and at a dose of 250 mg at -60 min; in the matched test, placebo was given at similar intervals. To induce GH release, three stimuli acting through different mechanisms were used: pyridostigmine (60 mg, orally, at -60 min), GHRH (100 micrograms, iv, at 0 min), and GHRH plus GH-releasing peptide (GHRP-6; His-D-Trp-Ala-Trp-D-Phe-Lys-NH2; both at a dose of 100 micrograms, iv, at 0 min). GH secretion was analyzed as the area under the secretory curve (AUC; mean +/- SE; micrograms per L/60 min). Acipimox pretreatment alone (n = 13) induced a large reduction in FFA levels compared with placebo treatment. The FFA reduction led to a slight GH rise (AUC, 123 +/- 47), not different from that in the placebo group (61 +/- 15). In the pyridostigmine-treated group (n = 6), the acipimox-pyridostigmine AUC (408 +/- 107) was significantly higher (P < 0.05) than that in the placebo-pyridostigmine group (191 +/- 25). Furthermore, the GHRH-mediated (n = 6) AUC of GH secretion in the placebo test (221 +/- 55) was tripled by FFA reduction due to acipimox, with an AUC of (691 +/- 134; P < 0.05). Even the most potent GH stimulus known to date, i.e. GHRH plus GHRP-6, was enhanced by FFA suppression. In fact, the placebo-GHRH-GHRP-6 AUC was 1591 +/- 349, lower (P < 0.05) than that in the acipimox-GHRH-GHRP-6 test (2373 +/- 242). The enhancing effects of FFA lowering on GHRH-mediated and GHRH- plus GHRP-6-mediated GH release were synergistic. These results indicate that in obese subjects, unlike normal weight subjects. FFA reduction per se does not stimulate GH secretion. A reduction in FFA with acipimox, however, increased pyridostigmine-. GHRH-, and even GHRH- plus GHRP-6-mediated GH release, suggesting that FFA reduction operates through a different mechanism from that of these three stimuli. The abnormally high FFA levels may be a contributing factor for the disrupted GH secretory mechanisms in obesity.