Based on the minimal peptide sequence (Phe-Leu-Leu-Arg) that has been found to exhibit biological activity in a gastric smooth muscle contractile assay for thrombin receptor-activating peptides, the cyclic peptide analogues cyclo(Phe-Leu-Leu-Arg-Acp) (1), cyclo(Phe-Leu-Leu-Arg-epsilon Lys) (2), and cyclo(Phe-Leu-Leu-Arg-Gly) (3) have been synthesized by the solid-phase method using benzotriazol-1-yloxytris(dimethylamino)phosphonium hexafluoroborate or 2-(1H-benzo-triazol-1-yl)-1,1,3,3-tetramethyluronium tetrafluoroborate as cyclization reagents. The contractile activities of compounds 1-3 have been compared with that of the linear thrombin receptor-activating peptide (TRAP) Ser-Phe-Leu-Leu-Arg-NH2 (compound 4) using a gastric smooth muscle strip assay. Compound 2, wherein the epsilon-amino group of lysine was coupled to the alpha-carboxyl of arginine, exhibited a contractile activity comparable to that of the linear TRAP, compound 4. However compound 1, wherein the aminocaproic linker group yielded a ring size the same as for compound 2 but without a primary amino group, exhibited a contractile activity 600-1000-fold lower than compounds 2 and 4. Compound 3, which exhibited partial agonist activity, was about 100-fold less potent than either compound 2 or 4. NMR spectroscopy of compound 2 revealed a proximity of the Phe and Arg side chains, leading to a molecular model generated by distance geometry and molecular dynamics, wherein the Phe and Arg residues are shown in proximity on the same side of the peptide ring. We conclude that the Phe and Arg side chains along with the primary amino group form an active recognition motif that is augmented by the presence of a primary amino group in the cyclic peptide. We suggest that a comparable cyclic conformation may be responsible for the interaction of linear TRAPs with the thrombin receptor.
Backround: Despite encouraging reports concerning the declining prevalence of iron deficiency, this easily preventable disorder is still an existing problem in presumably developed regions. Objective: To evaluate the prevalence of iron deficiency and relevant anemia in children residing in Northern Greece and to study possible associations. Design: 3,100 children aged 8 months to 15 years were evaluated. Socioeconomic status was determined based on the parents’ profession and place of residence. Nutrition habits were also evaluated. Results: The incidence of iron deficiency was found to be 14% and that of iron deficiency anemia was 2.9%, with a higher prevalence in children younger than 2 years of age. The place of residence was the most significant factor in relation to the development of iron depletion in the children studied. Additional independent factors were revealed to be breast-feeding, meat-containing meal consumption and the consumption of non-home-cooked meals. Conclusion: Iron deficiency remains prevalent in Northern Greece, mainly affecting the vulnerable toddler group. Nutritional iron deficiency is still a severe public health problem even in what are considered to be developed regions. An improvement of dietary habits and an upgrading of semiurban areas should contribute substantially to decreasing the prevalence of iron depletion in Greek children.
This report describes the rational design, synthesis, and pharmacological properties of an amide-linked cyclic analogue of gonadotropin-releasing hormone (GnRH) namely Cyclo(4-9)[Lys(4),d-Trp(6),Glu(9)]GnRH. The conformationally restricted analogue is characterized by reduced flexibility of the peptide strand due to the introduction of a beta-turn mimetic through 4,9 residue amide cyclization. The cyclic analogue was found to stimulate gonadotropin gene expression in the goldfish pituitary with similar potency compared to two native forms of GnRH. Simulation studies based on ROE connectivities in linear GnRH and potency of cyclic analogue supports the His(2), Trp(3), Tyr(5) clustering considered important for triggering receptor activation.
SummaryWe have recently reported the synthesis and the conformational properties of some Gonadotropin-releasing hormone (GnRH) analogues in which the tyrosine residue at position 5 is substituted with tyrosine-O-methyl (Keramida et al., Let. Pept. Sci., 3 (1996) 257/Matsoukas et al., Eur. J. Med. Chem., 32 (1997) 927). The analogue [Tyr-(OMe)5]-GnRH was found to exert a lower degree of desensitization than the native GnRH peptides in terms of pituitary gonadotropin (GTH) release in goldfish. Compared to GnRH, however, [Tyr-(OMe)5]-GnRH exerted a lower GTH-release potency in cultured goldfish pituitary fragments, and was bound with a lower binding affinity to the rat pituitary GnRH receptors. In order to increase the potency of [Tyr-(OMe)5]-GnRH, we have synthesized a group of GnRH peptides containing Tyr-(OMe) 5 in combination with other substitutions at positions 6, 9 and 10 and we have estimated their binding affinity for the rat pituitary receptors and gonadotropin (GTH) release potency in the goldfish pituitary. A selected number of these analogues was also tested for their ability to induce ovulation in seabass. The important structural modifications that increased the binding and gonadotropic activity of [Tyr(OMe)5]-GnRH in vitro and in vivo were found to include the replacement of the proline at position 9 with azetidine, glycine amide terminus with an alkyl amide group and Gly 6 residue with hydrophilic D-amino acids such as D-Arg 6. Overall, the findings provide SAR information on a group of novel GnRH peptides that can be also used to induce ovulation in teleosts.
Gonadotropin-releasing hormone (GnRH) stimulates the release and synthesis of gonadotropin hormones (GtH) and is the key regulator of reproduction. The present study was carried out to design a potent GnRH analogue containing Tyr(OMe) at position 5 and a D-amino acid at position 6. This was based on a previous study in which [Tyr(OMe)5]GnRH was shown to have reduced potency compared to GnRH. A novel GnRH peptide containing Tyr(OMe) 5 and D-Glu 6 in combination with other substitutions at positions 9 and 10 was synthesized in the present study and tested for binding to the rat pituitary as well as potency in terms of gonadotropin (GtH) release in the goldfish pituitary and ovulation in sea bass. The results demonstrate that the replacement of the glycine residue at position 6 with a D-GIu in combination with the substitution of proline at position 9 with azetidine (Aze) increased the binding and biological activity of [Tyr(OMe)5]GnRH. The observed increased potency is likely to be related to the improved resistance to degradation. The present findings may lead to the development of a more potent GnRH agonist for inducing ovulation in fish.
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