Mod GRF 1-29

Chromatographic separation and mass spectrometric identification of positional isomers of polyethylene glycol-modified growth hormone-releasing factor (1-29).

Yu Seok Youn, Dong Hee Na, Sun Dong Yoo +2 more

A one-step chromatographic method capable of separating all isomers of polyethylene glycol (PEG)-growth hormone-releasing factor (GRF) (1-29) conjugates was developed. The unmodified GRF (1-29) and seven different isomers of PEG-GRF (1-29) conjugates were separated by using a simple reversed-phase HPLC method depending on the differences of hydrophobicity due to the number and site of PEG attachment. The PEGylation sites of all isomers of PEG-GRF (1-29) conjugates were identified by determining the molecular masses of the Lys-C digested fragments with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. This study is a first report for the separation of all PEG-conjugate isomers and would be useful for further studies to find the promising conjugate by evaluating biological activity and stability of each isomer.

Growth hormone-releasing peptide-2 (GHRP-2) does not act via the human growth hormone-releasing factor receptor in GC cells.

C Chen, P Farnworth, S Petersenn +3 more

Effect of growth hormone-releasing peptide-2 (GHRP-2) on ovine somatotrophs is abolished by a growth hormone-releasing factor (GRF) receptor antagonist, which raises the possibility that GHRP-2 may act on GRF receptors. In the present study, we used rat pituitary GC cells with or without stable transfection of cDNA coding for the human GRF receptor (GC/R+ or GC/R-) to determine whether or not GHRP-2 acts via the GRF receptor. Northern blot analysis indicated that GRF receptor mRNA was undetectable in GC/R-cells, whereas a high level of expression occurred in GC/R+ cells that were transfected by GRF receptor cDNA. In GC/R- cells, incubation with up to 10(-7)M of either hGRF or GHRP-2 did not alter the intracellular cAMP, [Ca2+]i, or GH secretion. In GC/R+ cells, hGRF (10(-11)-10(-7)M) increased cAMP levels in a concentration-dependent manner up to 20-fold. This increase in cAMP levels was blocked by a GRF receptor antagonist, [Ac-Tyr1, D-Arg2]-GRF 1-29, but not by a Ca2+ channel blocker, NiCl2 (0.5 mM). GH secretion and [Ca2+]i were, however, not increased by hGRF. Incubation of the transfected cells with 10(-1)-10(-8)MGH RP-2 did not modify intracellular cAMP levels. This result suggests that GHRP-2 does not act through the GRF receptor.

New analogs of human growth hormone-releasing hormone (1-29) with high and prolonged antagonistic activity.

K Toth, M Kovacs, M Zarandi +5 more

Based on our previous results, in conjunction with various structural considerations, 19 new analogs of the GHRH antagonist [PhAc-Tyr1,D-Arg2,Phe(pCl)6,Abu15,Nle27,Agm29]++ +hGHRH(1-29) (MZ-5-156) were synthesized by the solid-phase method. These compounds were designed to develop further analogs of this class with increased receptor-binding affinity. All analogs had Abu15 and Nle27 modifications and were acylated with phenylacetic acid at the N-terminus. Most of the analogs had D-Arg2 and Phe(pCl)6 substituents and Agm29 or Arg29-NH2 at the C-terminus. Additional single substitutions consisted of the incorporation of D- or L-Tic1, D-Tic2, Tic6 or Phe(pNO2)6 and Arg29-NH2. The Arg29-NH2 analog of MZ-5-156 (KT-48) was further modified by single substitutions using Pal1; D-Tpi2; D- or L-Phe4; Phe(pX)6 X = F, Cl, I; Tyr7; Aib8; Tyr(Me)10 or Phe(pCl)10. Four peptides had multiple substitutions. All the analogs were evaluated for their ability to inhibit GH release induced by hGHRH(1-29)NH2 in vitro and some were also tested in vivo. Peptides [PhAc-Tyr1,D-Arg2,Phe(pI)6,Abu15,Nle27]hGHRH(1-2 9)NH2 (KT-30), [PhAc-Tyr1,D-Arg2,Phe(pCl)6,Aib8,Abu15,Nle27] hGHRH(1-29)NH2 (KT-50) and [PhAc-Tyr1,D-Arg2,Phe(pCl)6,Tyr(Me)10,Abu15,Nle27]h GHRH(1-29)NH2 (KT-40) with Phe(pI)6, Aib8 or Tyr(Me)10 modifications, respectively, showed high and prolonged inhibitory effect in superfused rat pituitary system. Analog KT-50 also exhibited a strong and long-term inhibitory activity in vivo in rats. Most of the new analogs showed high binding affinities to rat pituitary GHRH receptors.

The somatotropic axis in neonatal calves can be modulated by nutrition, growth hormone, and Long-R3-IGF-I.

H Hammon, J W Blum

Effects on the somatotropic axis [plasma levels of insulin-like growth factors (IGFs) I and II, IGF-binding proteins (IGFBPs), and growth hormone (GH)] of feeding different amounts of colostrum or milk replacer, of Long-R3-IGF-I (administered subcutaneously or orally; 50 micrograms.kg body wt-1.day-1 for 7 days), and of subcutaneously injected recombinant bovine GH (rbGH; 1 mg.kg body wt-1.day-1 for 7 days) were evaluated in calves during the 1st wk of life. Plasma Long-R3-IGF-I increased after subcutaneous application but not with the oral dose. Endogenous IGF-I was higher in calves fed colostrum six times compared with those fed only milk replacer. Native IGF-I was highest in rbGH-injected calves but was lowered by the subcutaneous injection of Long-R3-IGF-I. IGF-II concentrations were not modified by any of the treatments. IGFBP-2 increased in calves fed only milk replacer and those receiving subcutaneous Long-R3-IGF-I. GH was not modulated by differences in nutrition but increased after rbGH administration and similarly in all groups after intravenous injection of GH-releasing factor analog GRF-(1-29). Parenteral administration of Long-R3-IGF-I decreased GH concentration but did not affect the secretory pattern. The data demonstrate that the somatotrophic axis is basically functioning in neonatal calves and is influenced by nutrition, GH, and Long-R3-IGF-I.

Study of the activation mechanism of human GRF(1-29)NH2 on rat mast cell histamine release.

M D Estévez, A Alfonso, M R Vieytes +2 more

Human growth releasing factor (GRF) (1-29)NH2 releases histamine from pleural and peritoneal rat mast cells by a non cytotoxic and non immunological mechanism. Pretreatment of cells with pertussis toxin markedly inhibits the secretion, suggesting a possible function of a Gi-protein in the activation pathway. In order to determine the role of cAMP on GRF mediated secretion, mast cells were preincubated with isobutylmethylxanthine (IBMX) or cholera toxin, since both drugs greatly and enhance cAMP levels. IBMX inhibits mediator secretion while, in contrast, cholera toxin is ineffective to modify histamine release. The PKC activator TPA amplifies the response of mast cells to human GRF, shifting the dose-response curve to the left. The pretreatment of mast cells with the phosphatase inhibitor okadaic acid exerts no effect on the dose-response function curve to GRF. The response to human GRF does not depend on extracellular calcium, but there is a good correlation between the percent of histamine released and 45calcium uptake. The kinetic of calcium uptake is fast, maximum uptake being reached in 30 seconds.

Radiation and neuroregulatory control of growth hormone secretion.

A L Ogilvy-Stuart, W H Wallace, S M Shalet

Cranial irradiation frequently results in growth hormone (GH) deficiency. Patients with radiation-induced GH deficiency usually remain responsive to exogenous growth hormone releasing hormone, implying radiation damages the hypothalamus rather than the pituitary. Little is known about the effect of cranial irradiation on the neuroendocrine control of GH secretion. This study was to determine the effect of cranial irradiation on somatostatin tone.

Studies on alpha 2-adrenergic modulation of hypothalamic somatostatin secretion in rats.

L Lima, V Arce, J A Tresguerres +1 more

This study was undertaken to investigate whether or not alpha 2-adrenergic pathways would negatively modulate the hypothalamic somatostatin release in rats. To induce pharmacological changes in SS release, three groups of male Sprague-Dawley rats (n = 30/group) were separately anesthetized by ip administration of urethan (which increases SS tone; 1.2 g/kg), pentothal (which impairs SS release; 30 mg/kg), or ketamine (which does not affect spontaneous SS secretion; 40 mg/kg). Ten rats from each group were challenged with GRF (2 micrograms/kg iv), clonidine (40 micrograms/kg iv), or GRF plus clonidine. Administration of clonidine markedly increased the GH responsiveness to GRF in rats anesthetized with urethane or ketamine. In contrast, the GH response to GRF was not modified by clonidine in rats anesthetized with pentothal. These results show that alpha 2-adrenergic stimulation only modifies the GRF-induced GH rise when SS release is high. Therefore, in rats, central alpha 2-adrenergic pathways appear to play a main inhibitory effect on hypothalamic SS secretion.

Clonidine pretreatment modifies the growth hormone secretory pattern induced by short-term continuous GRF infusion in normal man.

L Lima, V Arce, M J Diaz +2 more

The aim of this study was to investigate the effect of a single dose of clonidine on the pattern of GH release in response to a 10-hour continuous GRF infusion in normal man.

Role of growth hormone-releasing hormone on pentagastrin-induced growth hormone release in normal subjects.

J F Garcia-Rojas, A Mangas, A Barba +3 more

In order to investigate the mechanisms by which gastrin cause GH release in humans we measured the GH response to pentagastrin alone (1.5 micrograms/kg/hour from 120 to 210 min) and following pretreatment with GHRH (GHRH 1-29,250 micrograms, iv at 0 min) in normal male subjects. Prior GHRH administration abolished the GH response to the second bolus of GHRH (1 micrograms/kg) administered two hours later. Pentagastrin infusion induced a rise in GH levels maximal at 60 min (9.1 + 0.6 ng/ml, mean + SE), but this rise was abolished by pretreatment with GHRH. Finally, we found that gastrin did not modify basal GH release or GH responses to GHRH by rat anterior pituitary cells in monolayer culture. Taken together, these data suggest that gastrin regulates GH secretion by acting at hypothalamic level.

Effects of a chronic GRF treatment on lambs having low or normal birth weight.

P Pastoureau, J Charrier, M M Blanchard +4 more

The effects of a long term treatment with human GRF(1-29)NH2 on plasma growth hormone (GH), somatomedin C (Sm-C), histomorphometric parameters of bone growth and body composition were investigated in normal and low birthweight male lambs. The animals were divided into two groups according to their birthweight: 24 normal birthweight (NBW) lambs weighing more than 4 kg and 22 low birthweight (LBW) lambs weighing less than 2.5 kg at birth. Half of the animals in each group received two daily subcutaneous injections (8 micrograms/kg body weight) of hGRF(1-29) NH2 (GRF) from birth to slaughter at 45 or 90 days of age. The other animals received the solvent only. At the beginning and at the end of the treatment, plasma GH and serum Sm-C concentrations were measured in all groups. After slaughter, a histomorphometric study was performed on undecalcified sections of metacarpal growth plates, and the remaining of the carcass was pulverized to study the chemical body composition. GRF induced GH release in both GRF-treated groups. However, plasma GH reached higher (P less than .001) concentrations and the GRF-induced GH peak lasted longer in LBW than in NBW lambs. At day 45, the GRF treatment increased (P less than .05) serum Sm-C concentrations in LBW. Most of histomorphometric parameters reflecting the metacarpal growth in length, were not statistically modified under GRF treatment. However, the size of degenerative cells was smaller (P less than .05) in LBW treated lambs as compared to controls. Consequently, the cell production in the growth plate was increased (P less than .05) under GRF treatment.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of active immunization against somatostatin on serum growth hormone concentration in growing pigs: influence of fasting and repetitive somatocrinin injections.

P Dubreuil, G Pelletier, D Petitclerc +3 more

Three experiments were conducted with growing pigs actively immunized against a protein-conjugated somatostatin (SRIF) in Freund's adjuvant. In the first experiment, blood from 24-week-old pigs (seven immunized and eight control) was sampled at 20-min intervals for 6 h to evaluate basal GH concentrations. The animals were then injected iv with porcine GH-releasing factor (GRF)-(1-29)NH2 (10 micrograms/kg). Before GRF stimulation, immunized animals had higher (P less than 0.05) baseline mean GH levels (2.6 vs. 1.4 ng/ml) and area under the GH curve (AUC; 1632 vs. 779 ng/min.ml); they also had higher AUC after GRF administration (4268 vs. 1972 ng/min.ml). In a second experiment eight immunized and eight control pigs were injected iv four times at 90-min intervals with porcine GRF (10 micrograms/kg). Control pigs responding to the first injection did not respond to the second and third, and those responding to the second did not respond to the first, third, and fourth, indicating a decreased responsiveness that was longer than 3 h post-GRF response in control pigs. SRIF-immunized pigs had a more consistent GH response to the GRF injections. Overall, a reduced response was observed after the second and the fourth injections in immunized pigs, although five and six of eight animals had a GH peak response higher than 10 ng/ml during these periods. In a third experiment, effects of fasting, GRF, and SRIF immunization were studied. Immunization and fasting had their own positive effects on serum GH levels. Immunization increased baseline mean GH levels (5.0 vs. 2.2 ng/ml) and total AUC before (2318 vs. 1073 ng/min.ml) and after (1886 vs. 910 ng/min.ml) iv GRF stimulation (10 micrograms/kg) compared to controls. Fasting increased the mean baseline GH level (4.5 vs. 2.6 ng/ml), and it increased AUC before exogenous GRF stimulation (2009 vs. 1392 ng/min.ml). In conclusion, SRIF in pigs seems to be a potent GH-governing factor, since, when inhibited, baseline mean GH levels increase, and a consistent response to GRF is observed. Fasting could increase GH concentrations by different ways: decreasing SRIF release and increasing GRF release or modifying the sensitivity of the somatotrophs to both factors.

Peptide histidine isoleucine and vasoactive intestinal polypeptide cause relaxation of opossum internal anal sphincter via two distinct receptors.

S Nurko, B M Dunn, S Rattan

The purpose of this investigation was to characterize the nature of peptide histidine isoleucine (PHI) and vasoactive intestinal polypeptide (VIP) receptors, and to examine the role of PHI in internal anal sphincter (IAS) relaxation. The studies were performed on opossums anesthetized with alpha-chloralose. The pressures in the IAS were recorded using continuously perfused catheters. The IAS responses to PHI analogues, PHI-27, PHM-27, PHI-(14-27)-NH2, PHI-(1-13), to VIP, to rectal balloon distention, sacral nerve stimulation, and local intramural stimulation were evaluated before and after PHI-(14-27)-NH2, PHI tachyphylaxis, and the VIP antagonists [4 Cl-D-Phe6, Leu17] VIP (VIP analogue) and (N-Ac-Tyr1, D-Phe2)-GRF(1-29)-NH2 (growth hormone releasing factor analogue). The inhibitory responses by all of the PHI analogues and VIP were not modified by tetrodotoxin. PHI-(14-27)-NH2 and PHI tachyphylaxis caused significant antagonism of the fall in internal anal sphincter pressure by PHI-27 and PHM-27 without modifying the IAS responses to VIP and rectal balloon distention, sacral nerve stimulation, and local intramural stimulation. On the other hand, VIP and growth hormone releasing factor analogues caused significant antagonism of VIP responses without modifying the responses to PHI-27. We conclude that distinct PHI and VIP receptors are present in the IAS smooth muscle and that PHI may not play a significant role in the IAS relaxation via the rectoanal reflex.

Influence of dopaminergic, adrenergic and cholinergic blockade and TRH administration on GH responses to GRF 1-29.

V Jordan, C Dieguez, I Lafaffian +4 more

In order to establish the influence of dopaminergic, alpha-adrenergic and cholinergic pathways on GRF-mediated GH release we have studied the GH responses to GRF 1-29 (100 or 50 micrograms as i.v. bolus) alone and in combination with metoclopramide (MCP, 10 mg, i.v.), thymoxamine (THYM, 210 micrograms/min, 150 min infusion), and atropine (1.2 mg, i.v.). We have also investigated any possible interaction between TRH and GRF in view of the reported inhibitory effects of TRH infusion on stimulated GH release. Dopaminergic and alpha-adrenergic blockade with MCP and THYM respectively, did not have any effect on the GH responses to GRF. This lack of effect strongly suggests that any action which these neurotransmitters may exert on GH secretion is not at a pituitary level. TRH did not modify the GH response to GRF suggesting that the inhibitory effect on stimulated GH secretion is exerted at a hypothalamic level. In contrast, GH responses to GRF were significantly reduced by prior administration of atropine. These data support the view that cholinergic pathways play an important role in the regulation of GH secretion and such control may be exerted at both hypothalamic and pituitary levels.

Interaction of growth hormone-releasing factor (GRF) and 14 GRF analogs with vasoactive intestinal peptide (VIP) receptors of rat pancreas. Discovery of (N-Ac-Tyr1,D-Phe2)-GRF(1-29)-NH2 as a VIP antagonist.

M Waelbroeck, P Robberecht, D H Coy +3 more

Adenylate cyclase stimulation by GH-releasing factor (GRF) and 14 GRF analogs (modified in the N-terminal part) was compared to the capacity of the same peptides to inhibit [125I]iodo-vasoactive intestinal peptide (VIP) binding in rat pancreatic plasma membranes. These peptides interfered with VIP receptors as they inhibited [125I]iodo-VIP binding, and probably acted through VIP-preferring receptors as one of these peptides [(N-Ac-Tyr1,D-Phe2)-GRF(1-29)-NH2] selectively inhibited both VIP- and GRF-stimulated adenylate cyclase activities. In general, alterations in positions 6 and 7 (but not in positions 1-4) markedly reduced the affinity of the resulting GRF analog [based on Kact (concentration exerting half-maximal stimulation) values]. The intrinsic activity exerted by GRF analogs on adenylate cyclase was reduced by acetylation of the free NH2 group and by the replacement of Asp3, Ala4, Phe6, and Thr7 by the corresponding D-isomer. The presence of pCl-Phe6 and Trp6 also depressed this parameter. Substitution in GRF (or its N-acetylated derivative) by D-Phe2, D-Arg2, and D-Ala4 again reduced the intrinsic activity, whereas substitution of the natural L-amino acid residue by D-Ala2 and Phe4 gave superagonists.