Mowles. T F TF; Stricker. P P; Felix. A M AM; Soike. K F KF; Campbell. R M RM
African Green monkeys were injected (2 x daily subcutaneously for six months) with human GRF(1-44)-NH2 (10 micrograms/kg BW) or a more potent analog, [desNH2Tyr1,Ala15]-hGRF(1-29)-NH2 (2 micrograms/kg BW) to determine the potential of each peptide to induce antibody formation. Blood samples were taken every two weeks, diluted 1:100 and tested for ability to bind radioiodinated hGRF. One animal in the hGRF(1-44)-NH2 group [N = 6] produced low-titer GRF antibodies by 6 weeks (19% binding) and continued throughout the 24 weeks of treatment (average = 50-60% binding). Similarly, one animal in the hGRF analog group [N = 6] displayed low-titer GRF antibodies by 18 weeks (14% binding), with the highest binding observed at 24 weeks (51% binding). Subsequent dilutions (1:1,000 and 1:3,000) of these bleedings confirmed that higher GRF antibody titers were not masked by antibody excess. Dialyzed sera from these two animals did not affect the abilities of hGRF(1-44)-NH2 or [desNH2Tyr1,Ala15]-hGRF(1-29)-NH2 to stimulate GH secretion by rat pituitary cells in vitro. After 20 weeks of treatment, significant GH responses (increased mean GH area under the curve 2.3-2.5 fold and GH peak 3.5-3.7 fold, that of control) were observed following hGRF or hGRF analog injection. Therefore, the low titer GRF antibodies detected in monkey sera during six months of treatment with hGRF or a potent analog were biologically non-neutralizing.
Blanchard. M M MM; Goodyer. C G CG; Charrier. J J; Kann. G G; Garcia-Villar. R R; Bousquet-Melou. A...
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Breddam. K K; Widmer. F F; Meldal. M M
The applicability of serine carboxypeptidase catalysed transpeptidation reactions, using amino acid amides as nucleophiles, for C-terminal amidation of peptides has been investigated. With the aim of converting an unamidated precursor into GRF(1-29)-NH2, an interesting biologically active derivative of growth hormone releasing factor, a number of model reactions were initially investigated. In such a transpeptidation reaction, where the C-terminal amino acid is replaced by the amino acid amide, used as nucleophile, the C-terminal amino acid residue of the substrate can be chosen freely since it functions as leaving group and does not constitute part of the product. Since the C-terminal sequence of GRF(1-29)-NH2 is -Met-Ser-Arg-NH2 the model reactions Bz-Met-Ser-X-OH (X = Ala, Leu, Arg) + H-Arg-NH2----Bz-Met-Ser-Arg-NH2 + H-X-OH were first studied. With carboxypeptidase Y and X = Ala or Leu the amidated product could be obtained of 98% and 41%, respectively. With carboxypeptidase W-II and X = Arg a yield of no more than 72% could be obtained. The choice of Ala as leaving group in combination with carboxypeptidase Y therefore appeared optimal. With the longer peptide Bz-Leu-Gln-Asp-Ile-Met-Ser-Ala-OH the amidated product could be obtained in a yield of 78%, using carboxypeptidase Y, the only other product being Bz-Leu-Gln-Asp-Ile-Met-Ser-OH, formed due to the competing hydrolysis reaction. The full length peptide GRF(1-28)-Ala-OH was synthesized by the continuous flow polyamide solid-phase method.(ABSTRACT TRUNCATED AT 250 WORDS)
Tannenbaum. G S GS; Lapointe. M M; Gurd. W W; Finkelstein. J A JA
GH secretion is markedly blunted in obesity; however, the mechanism(s) mediating this response remains to be elucidated. In the present study we examined the involvement of the two hypothalamic GH-regulatory hormones, GH-releasing factor (GRF) and somatostatin (SRIF), using the genetically obese male Zucker rat. Spontaneous GH, insulin, and glucose secretory profiles obtained from free moving, chronically cannulated rats revealed a marked suppression in amplitude and duration of GH pulses in obese Zucker rats compared to their lean littermates (mean 6-h plasma GH level, 3.9 +/- 0.4 vs. 21.5 +/- 3.8 ng/ml; P less than 0.001). Obese rats also exhibited significant hyperinsulinemia in the presence of normoglycemia. The plasma GH response to an iv bolus of 1 microgram rat GRF-(1-29)NH2, administered during peak and trough periods of the GH rhythm, was significantly attenuated in obese rats at peak (137.4 +/- 26.1 vs. 266.9 +/- 40.7 ng/ml; P less than 0.02), although not at trough, times. Passive immunization of obese rats with a specific antiserum to SRIF failed to restore the amplitude of GH pulses to normal values; the mean 6-h plasma GH level of obese rats given SRIF antiserum was not significantly different from that of obese rats administered normal sheep serum. Both pituitary wet weight and pituitary GH content and concentration were reduced in the obese group. Measurement of hypothalamic GRF immunoreactivity revealed a significant (P less than 0.05) reduction in the mediobasal hypothalamic GRF content in obese rats (503.2 +/- 60.1 pg/fragment) compared to that in lean controls (678.1 +/- 50.2 pg/fragment), although no significant difference was observed in hypothalamic SRIF concentration. Peripheral SRIF immunoreactive levels were significantly (P less than 0.01) elevated in both the pancreas and stomach of obese rats. These results demonstrate that the genetically obese Zucker rat exhibits 1) marked impairment in both spontaneous and GRF-induced GH release, which cannot be reversed by SRIF immunoneutralization, 2) significant reduction in pituitary GH concentration, 3) depressed hypothalamic GRF content, and 4) elevated gastric and pancreatic, but not hypothalamic, SRIF levels. The findings suggest that the defect in pituitary GH secretion observed in the genetically obese Zucker rat is due, at least partially, to insufficient stimulation by hypothalamic GRF, and that SRIF does not play a significant role.
Evans. P D PD; Villegas. J J
The study shows that two chemicals, including a version of the peptide GRF‑1‑29, can block the effects of the hormone VIP on nerve‑supporting cells in a squid. This blocking is specific and reversible, but the work is done in an invertebrate model and does not suggest any direct health or performance benefit for people.
Robberecht. P P; Coy. D H DH; De Neef. P P; Camus. J C JC; Waelbroeck. M M; Christophe. J J
The study shows that a specially labeled version of the growth hormone‑releasing factor (GRF‑1‑29) can stick to a certain type of VIP receptor in rat liver cells, but the work is mainly about how the labeling works and how the binding can be measured, not about any health benefit or how to use the peptide in people.
Krzyzagórska. E E; Kosowicz. J J
This study looked at how a hormone-releasing peptide (GRF‑1‑29) can be used in a medical test to see how well the pituitary gland can release growth hormone in people with different types of pituitary tumors. The test showed a lot of variation in responses, and it was mainly useful for diagnosing tumors, not for improving health or performance.