Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P21452 (NK-2 receptor)
 180 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Incorporation of D-Pro9 into substance P related peptides is known to enhance neurokinin NK-2 receptor agonist potency and selectivity with respect to other neurokinin receptors. We now report that replacement of D-Trp9 by D-Pro9 in the nonselective neurokinin antagonist [Arg5,D-Trp7,9, Nle11]-SP(5-11) gave a partial agonist with NK-2 receptor selectivity. Further incorporation of Pro10 provided the weak but selective NK-2 antagonist Arg-Ala-D-Trp-Phe-D-Pro-Pro-Nle-NH2 (compound 4; NK-2 pKB = 5.9; NK-1 pKB = 4.7; NK-3 pKB less than 4.6). Addition of a suitable lipophilic N-terminal substituent (e.g. Boc, PhCO, cyclohexylcarbonyl) to this compound greatly enhanced NK-2 antagonist activity (compound 10, GR 83074; NK-2 pKB = 8.2), and combined with further optimization of the N-terminal amino acids, provided the extremely potent and selective NK-2 antagonist PhCO-Ala-Ala-D-Trp-Phe-D-Pro-Pro-Nle-NH2 (compound 34, GR 94800; NK-2 pKB = 9.6; NK-1 pKB = 6.4; NK-3 pKB = 6.0). Compounds of this class produced a potent inhibition of NK-2 agonist-induced bronchoconstriction in the anaesthetized guinea-pig.
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PMID:Highly potent and selective heptapeptide antagonists of the neurokinin NK-2 receptor. 132 7

A structure-activity study on neurokinin A and its C-terminal fragment NKA (4-10) has been performed in order to find selective agonists for the NK-2 receptor and identify chemical modifications suitable for protecting the peptides from degradation, while maintaining activity. Five series of compounds have been prepared and tested: 1. the complete series of the L-Ala monosubstituted analogues of NKA; 2. a series of NKA fragments from the C- or N-terminal; 3. the complete series of NKA (4-10) analogues monosubstituted with beta-Ala; 4. a series of NKA (4-10) analogues with monosubstitutions in pos. 4, 8, 10 or multisubstitutions in two or more of the same positions; and 5. a series of 6 NKA (4-10) analogues monosubstituted with 1-amino,1-cyclohexane carboxylic acid residue. It has been found that the most selective agonists for the NK-2 receptor system are [beta Ala8]NKA (4-10) and [Nle10]NKA (4-10). Protection from aminopeptidase may be obtained by acetylation of the N-terminal amide of NKA (4-10), while partial protection from endopeptidases should be expected from the presence of beta-Ala in position 8. Conformational constraints induced with 1,amino,1-cyclohexane carboxylic acid residue gave weakly active compounds. Multiple substitutions reduce rather than potentiating the favorable effects of the corresponding monosubstituted compounds.
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PMID:Structure-activity studies of neurokinin A. 254 91

Mutational analysis of the NK-1 receptor indicates that residues involved in non-peptide antagonist binding cluster around the outer portion of transmembrane segments (TM) V and VI. In contrast mutations affecting the binding of the natural peptide agonist, substance P, are scattered in the exterior part of the receptor. Recently it was reported that a number of mutations in TM-II also seriously impair substance P binding. Here we confirm that Ala substitutions for these residues located on a hydrophilic helical face of TM-II basically eliminate substance P binding to the NK-1 receptor, provided that a radiolabeled non-peptide antagonist is used as radioligand. Surprisingly, radiolabeled substance P bound well to all these mutant receptors and was displaced with only slightly reduced affinity by the unlabeled peptide and by the non-peptide antagonists. The wild-type homologous NK-2 receptor displayed properties similar to those observed in the mutated NK-1 receptors, i.e. concomitant high affinity binding of radiolabeled agonist peptide (in this case neurokinin A), yet low affinity, G-protein independent competition of unlabeled peptide with radiolabeled non-peptide antagonist. It is concluded that substitutions in TM-II of the NK-1 receptor do not affect the high affinity binding of substance P but instead block the ability of the peptides to compete for non-peptide antagonist binding. It is suggested that certain mutations can impair interchange between receptor conformations that each bind different ligands with high affinity.
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PMID:Mutations along transmembrane segment II of the NK-1 receptor affect substance P competition with non-peptide antagonists but not substance P binding. 752 69

Previously we have found that binding of the nonpeptide substance P antagonist, CP 96,345, to the neurokinin-1 (NK-1) receptor was critically dependent on two short segments adjacent to the top of transmembrane segments (TM) V and VI, called segments A (residues 183-195) and D (residues 271-276), respectively. In the present study we have systematically performed substitutions of nonconserved residues within these two segments with residues from the homologous NK-3 and/or NK-2 receptor. In segment A, deletion of residues Glu193 and Lys194, which are not present in the NK-3 receptor, or substituting them with leucines as in the NK-2 receptor, decreased the affinity of CP 96,345 10- and 22-fold, respectively. Surprisingly, switching the position of Glu193 and Lys194 did not affect the affinity of CP 96,345, suggesting that, rather than interacting directly with CP 96,345, an interaction of these residues with one another is important for CP 96,345 binding. In segment D substitution of Tyr272 with threonine as in the NK-2 receptor and with alanine as in the NK-3 receptor decreased the affinity of CP 96,345 7- and 24-fold, respectively. Mutation of the preceding Pro271 to glycine alone did not affect CP 96,345 binding, but, combined with the mutation of Tyr272 to threonine, the affinity decreased 28-fold. A series of CP 96,345 analogues with modifications of the major chemical moieties exhibited equally reduced affinity as that of CP 96,345 for the Tyr272- and Lys193-Glu194-substituted constructs, except CP 95,555, which lacks one of the phenyl rings in the benzhydryl group and which was almost unaffected by these mutations. In conclusion, our data indicate a direct interaction between CP 96,345 and Tyr272, which are located at the top of TM VI likely in close spatial proximity to the previously identified interaction point, His197, at the top of the adjacent TM V. Furthermore, the data demonstrated a critical involvement in CP 96,345 binding of Lys193 and Glu194 located one alpha-helical turn above His197.
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PMID:Specific residues at the top of transmembrane segment V and VI of the neurokinin-1 receptor involved in binding of the nonpeptide antagonist CP 96,345 [corrected]. 792 43

A series of cyclic pseudopeptides of the formula cyclo(Leu psi[CH2NH]Xaa-Gln-Trp-Phe-beta Ala), where Xaa represents the residue of an alpha-amino acid, has been synthesized in order to establish the role of the Xaa side chain for tachykinin NK-2 receptor antagonist activity. Syntheses have been carried out in solid phase with either Fmoc or Boc strategy. The antagonist potency on NK-2 receptors in the hamster isolated trachea (HT) and the rabbit isolated pulmonary artery (RPA) bioassays increases with Xaa lipophilicity; cyclo(Leu psi[CH2NH]Cha-Gln-Trp-Phe-beta Ala) and cyclo(Leu psi[CH2NH]Asp(NHBzl)-Gln-Trp-Phe-beta Ala) resulted in being the two most active antagonists (pA2 = 9.06 and 9.26 on HT, respectively). A significant linear correlation was found between pA2 values determined in HT and RPA bioassays and capacity factors measured in reversed phase HPLC. The comparison between the biological activities of cyclic hexapeptides containing or not containing the aminomethylene moiety proved the crucial role of the pseudopeptide bond for determining high antagonist potency at the NK-2 receptor.
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PMID:Influence of lipophilicity on the biological activity of cyclic pseudopeptide NK-2 receptor antagonists. 793 90

We report on the synthesis and the pharmacological properties of a new series of tachykinin antagonists based on the peptide N2-[(4R)-4-hydroxy-1-[(1-methyl-1H-indol-3-yl) carbonyl]-L-prolyl]-N-methyl-N-(phe-nylmethyl)-3-(2-naphthyl)-L-al aninamide (FK888) modified on the (2-naphthyl)-L-alanine and the [(1-methyl-1H-indol-3-yl)carbonyl] moieties. The compounds were tested on guinea pig ileum for NK-1, rat colon for NK-2 and rat portal vein for NK-3 receptors. The two most potent peptides of this series, 1b and 2b, were selective for the NK-2 receptor (pA2 = 7.5 and 7.3, respectively).
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PMID:Modification of the potent peptide FK888 with unusual aminoacids: effects on activity on neurokinin receptors. 868 42

Structure-activity relationships of neurokinin A (NKA) and the two analogues NKA(4-10) and [Nle10]NKA(4-10) were investigated at the rat fundus NK-2 receptor, using selected amino acid substitutions. Both radioligand binding with [125I][Lys5,Tyr(I2)7,MeLeu9, Nle10] NKA(4-10) and functional studies were performed and correlated. In membrane binding experiments loss of His1 and Lys2, or replacement of Lys2 with Ala did not substantially alter binding affinity of NKA. NKA(4-10) free acid was unable to compete with the radioligand. [Nle10]NKA(4-10) binding affinity to rat fundus membrane preparations was decreased when substituting Asp4 with Gln or Asn, or Val7 with either Tyr or Ile. Replacement of Ser5 with the negatively charged Glu also decreased the binding affinity, but substitution with the positively charged Lys substantially increased the affinity of [Nle10] NKA(4-10) for the NK-2 receptor. Lengthening NKA(4-10) or [Nle10]NKA(4-10) with Ala11 or Nle11, respectively, decreased the binding affinity of the peptide. In both binding and functional studies, replacement of any of the residues of NKA(4-10), except for Ser5, with alanine decreased the affinity of the peptide for the NK-2 receptor. Ala substitutions at positions 4, 6, and very obviously at 8, 9 and 10 of NKA(4-10) yielded peptides unable to achieve a maximum contractile response, although they did not demonstrate antagonist activity. These data confirm the importance of the NKA carboxyl terminus, and the requirement for Phe6, Val7, Gly8, Leu9 and Met10 integrity for interaction with the NK-2 receptor. They also suggest that Ser5 is a good site to target modifications leading to the design of new potential drugs.
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PMID:Binding and functional potency of neurokinin A analogues in the rat fundus: A structure-activity study. 1008 63

The effect of selective tachykinin receptor agonists and antagonists on human isolated intralobar pulmonary arterial rings was investigated. Neither Substance P (SP) nor neurokinin A (NKA) contracted the arteries. Both of these agonists, however, were potent and efficacious at relaxing the arteries that were precontracted with phenylephrine. The negative log (M) EC(50) values for SP and NKA were 9.0 and 8.3, respectively. The neurokinin (NK)-3 selective agonist, senktide-analog, and the NK-2 receptor selective agonist, [beta-Ala(8)]NKA(4-10), caused neither contractions nor relaxations of the arteries, whereas the NK-1 receptor agonist Ac-[Arg6, Sar9, Met(O2)11]SP(6-11) (ASM-SP) relaxed the tissue with a potency similar to SP. The relaxations to SP, NKA, and ASM-SP were competitively antagonized by the selective NK-1 receptor antagonist CP 99994, with a pK(b) in the nanomolar range. Antagonism of the ASM-SP-induced relaxations was also noted with FK 888, RP 67580, and L 732,138, although these antagonists were much less potent than CP 99994 in this regard. Another NK-1 receptor selective antagonist, SR 140333, caused an insurmountable antagonism of the SP-induced relaxations. The NK-1 receptor-mediated relaxations could be blocked by removing the endothelium, or by a combination of N-nitro-L-arginine and indomethacin. Measurement of prostanoid generation revealed that in endothelial-intact but not endothelial-denuded tissue, ASM-SP caused a selective increase in the production of 6-keto-PGF1alpha, the stable metabolite of prostacyclin. The results indicate that stimulation of NK-1 receptors leads to relaxation of human intralobar pulmonary arteries, which is mediated largely by nitric oxide and prostacyclin released from the endothelium of these vessels.
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PMID:Pharmacological examination of the neurokinin-1 receptor mediating relaxation of human intralobar pulmonary artery. 1060 65

Present investigations were undertaken to study the influence of peptide NK-1 and NK-2 receptor agonists and antagonists as well as substance P and neurokinin A (the natural ligands for these tachykinin receptors) on oxytocin (OT) release from isolated rat hypothalamo-neurohypophysial (H-N) system as well as to determine whether the tachykinin NK-1 and/or NK-2 receptors contribute to the response of oxytocinergic neurons to melatonin. The results show, for the first time, that highly selective NK-1 receptor agonist, i.e., [Sar(9),Met(O(2))(11)]-Substance P, enhances while the NK-1 receptor antagonist (Tyr(6),D-Phe(7),D-His(9))-Substance P (6-11) - sendide - diminishes significantly OT secretion; the latter peptide was also found to antagonize the substance P-induced hormone release from isolated rat H-N system, when used at the concentration of 10(-7) M/L. Melatonin significantly inhibited basal and substance P-stimulated OT secretion. Neurokinin A and the NK-2 receptor selective agonist (beta-Ala(8))-Neurokinin A (4-10) as well as the NK-2 receptor antagonist (Tyr(5),D-Trp(6,8,9),Lys-NH(2)(10))-Neurokinin A (4-10) were essentially inactive in modifying OT release from the rat H-N system in vitro. The present data indicate a distinct role for tachykinin NK-1 (rather than NK-2) receptor in tachykinin-mediated regulation of OT secretion from the rat H-N system. Under present experimental conditions, however, a role of respective tachykinin receptors in the response of oxytocinergic neurons to melatonin has not been found.
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PMID:Role of tachykinin receptors and melatonin in oxitocin secretion from isolated rat hypothalmo-neurohypophysial system. 1561 40

The aim of the present study was to investigate the influence of melatonin on vasopressin (AVP) release from the rat hypothalamo-neurohypophysial (H-NH) system, both in vivo and in vitro, possibly modified by the peptide NK-1 and/or NK-2 receptor agonists and antagonists. Highly selective NK-1 receptor agonist, i.e., [Sar(9),Met(O(2))(11)]-Substance P, has been shown to enhance the AVP release from isolated rat H-NH system in vitro, while the NK-1 receptor antagonist--(Tyr(6),DPhe(7),D-His(9))-Substance P (6-11) as well as the NK-2 receptor selective agonist--(beta-Ala(8))-Neurokinin A (4-10) and antagonist--(Tyr(5),D-Trp(6,8,9),Lys-NH(2)(10))-Neurokinin A (4-10) were essentially inactive in modifying AVP secretion. Melatonin inhibited basal release of AVP but was not able to reduce significantly the in vitro response of vasopressinergic neurones to NK-1 receptor agonist. After intracerebroventricular (icv) administration, substance P (SP), neurokinin A (NKA) and the NK-1 receptor agonist (all at the concentration of 10(-7) M/L) significantly enhanced plasma AVP concentration. Such stimulatory effect of the latter peptide on AVP output from the eurohypophysis was reduced by an intravenous (iv) injection of melatonin, which itself (at a concentration of 5 ng/ml) caused a significant decrease in AVP release 10 min after injection. The inhibitory influence of melatonin on the AVP secretion was absent in rats injected icv with both tachykinin receptors antagonists, the NK-2 receptor agonist or NKA. The present data indicate a distinct role for NK-1 receptor in NKA/SP-mediated regulation of AVP release from the rat H-NH system. They have also shown that, under present experimental conditions, the stimulatory effect of NK-1 receptor activation on AVP secretion into the blood is sensitive to inhibitory influence of melatonin.
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PMID:Effect of melatonin on the vasopressin secretion as influenced by tachykinin NK-1 receptor agonist and antagonist: in vivo and in vitro studies. 1819 91


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