Synthesis and in vitro activities of new tryptophan-modified and thiomethylene-containing pseudopeptide antagonists of the neurokinins

A series of pseudopeptide analogs of the substance P-like hexapeptide Ava-Phe-Phe-Gly-Leu-Met-NH2 was produced by N alpha-protection, introduction of the thiomethylene bond, of D- and non-proteinogenic amino acids, and alteration of the side chain of tryptophan. Synthesis of the pseudopeptides on a solid phase was successfully improved by direct formation of the CH2-S bond on the resin. However, while thiomethylene formation between leucine and norleucine led to the expected SS diastereoisomer, the major product of the similar coupling between two phenylalanines was the SR isomer. An improved resistance of the analogs to proteolysis was observed, which could be related to the structural changes. Interestingly, these modifications led to three water-soluble and potent neurokinin antagonists on classical in vitro bioassays.

A potent and long-acting NK-1 selective agonist

In rats anesthetized with urethane, substance P exerts a short-lasting hypotensive effect and stimulates salivary secretion. These effects are significantly increased and prolonged by 5 to 10 times, when substance P is administered in the presence of a mixture of peptidase inhibitors (captopril, thiorphan and phosphoramidon). Ac[Arg6,Sar9,Met(O2)11]SP(6-11), a selective NK-1 receptor agonist, shows high potency and prolonged hypotensive and sialologic effects. The effects of the NK-1 selective hexapeptide are comparable to those of substance P tested in the presence of peptidase inhibitors and are not modified by peptidase inhibitors. Ac[Arg6,Sar9,Met(O2)11]SP (6-11) is proposed as a useful tool for studying the roles and functions of NK-1 receptors in vivo, because of its stability, potency and selectivity.

Substance P (NK-1 receptor) antagonists: in vivo and in vitro activities in rats and guinea pigs

NK-1 receptor subtypes have been identified by the use of CP-96,345 and RP-67,580, two non-peptide antagonists. These and other antagonists have been tested in vivo and in vitro in guinea pigs and rats to counteract the hypotensive and contractile (urinary isolated bladder) effects of a) SP, b) the NK-1 selective agonist [Sar9,Met(O2)11]SP and c) other neurokinins. CP-96,345 has been found to be more active on the guinea pig and RP-67,580 more active on the rat by at least 1 log unit both in vivo and in vitro. Both compounds are selective NK-1 antagonists and RP-67,580 appears to be weaker than CP-96,345. Two in vitro preparations, the guinea pig and rat urinary bladder are proposed as bioassays for the NK-1A (guinea pig) and NK-1B (rat) receptor subtypes, which have been shown to mediate smooth muscle contraction and hypotension, resulting from peripheral vasodilatation. CP-96,345 and RP-67,580 are more potent antagonists than spantide, its homologous octapeptide and the Fujisawa tri or dipeptides.

Structure-activity relationship study of R396, an NK2 tachykinin antagonist selective for the NK2B receptor subtype

We report on a structure-activity study of R396 (Ac-Leu-Asp-Gln-Trp-Phe-Gly-NH2), a linear hexapeptide tachykinin antagonist selective for the putative NK2B receptor subtype. Asp2, Trp4 and the C-terminal glycinamide have been challenged by classical amino acid substitutions with the aim of elucidating the structural requirements responsible for NK2 subtype selectivity. The biological activities indicate that Asp2 has a crucial role for the high affinity of R396 at the NK2B subtype: none of the analogues substituted in position 2 display higher affinity as compared to R396, regardless of the nature of the residue introduced. Trp4 has been replaced by other aromatic residues, again yielding weak antagonist or inactive compounds. Finally, the C-terminal amide appears to be crucial for affinity, the free acid analogue being devoid of biological activity. On the other hand, antagonistic activity is maintained both by the desGly pentapeptide and by the analogue bearing beta Ala in place of Gly in position 6. In conclusion, since the NK2B selectivity pattern was maintained throughout the whole series of R396 replacement analogues, we speculate that the overall conformational features of this family of linear hexapeptides favour the interaction with the NK2B receptor subtype.

Neurokinin A (NK2) receptor revisited with SR 48968, a potent non-peptide antagonist

SR 48968, a new non-peptide antagonist of NK2 receptors, has been tested in a variety of isolated smooth muscle preparations from rats, guinea pigs, rabbits, hamsters and men, in order to assess its selectivity for NK2 receptors as well as its competitivity and specificity. The compound has been found to be inactive as a stimulant or relaxant in all preparations but to exert a potent, competitive antagonism, particularly in tissues obtained from rabbits (pA2 9.8-10.3), guinea pigs (10.5), rats (9.4-9.6), men (9.36-9.6) and hamsters (7.45-8.6). SR 48968 is therefore more active on the NK2A than on the NK2B receptor subtype and the human receptor is close to the NK2A subtype. SR 48968 exerts an antagonism of the competitive type and is therefore suitable for receptor classification despite its slow reversibility in vitro. The sensitivity of NK2A receptors to SR 48968 is at least 1000 times higher than those of NK1 and NK3 receptors. The compound does not affect the effects of bradykinin, angiotensin or bombesin. Because of its activity in human tissues, its potency and long duration of action, SR 48968 is a new promising pharmacologic and possibly therapeutic agent.

Pharmacological characterization of a new highly potent B2 receptor antagonist (HOE 140: D-Arg-[Hyp3,Thi5,D-Tic7,Qic8]bradykinin)

HOE 140 (D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin), a new B2 antagonist, was compared to R-493 (D-Arg[Hyp3-D-Phe7,Leu8]bradykinin) with respect to inhibition of the responses of seven isolated smooth muscle preparations to bradykinin. R-493 was found to exert: (a) high antagonistic activity on the rabbit jugular vein (pA2 of 8.86), (b) moderate activity on the rabbit aorta, guinea-pig ileum, hamster urinary bladder and human urinary bladder (pA2 of 5.76, 6.77, 7.16 and 7.15, respectively) and (c) a stimulatory effect on the guinea-pig trachea. On the other hand, HOE 140 showed identical apparent affinities (8.36-9.12) on all preparations except the rabbit aorta where it was inactive and the guinea-pig trachea where the compound was an antagonist (pA2: 7.42) without agonistic effect. HOE 140 is specific and selective for B2 receptors since it was inactive against angiotensin II, substance P, neurokinin A, desArg9-bradykinin, noradrenaline or acetylcholine in the various preparations. R-493 inhibited the contractile effects of bradykinin competitively, while HOE 140 was not competitive even at low concentrations (7.7 x 10(-9) M). These results demonstrate that HOE 140 is a potent B2 antagonist with high affinity, specific for kinin receptors and selective for the B2 receptor type, but is non-competitive. HOE 140 is the first bradykinin receptor antagonist that acts as such on the guinea-pig trachea without showing any agonistic activity.

Pharmacological evaluation of the angiotensin, kinin, and neurokinin receptors on the rabbit vena cava

Angiotensin II, bradykinin, and substance P are powerful vasoconstrictors of venous smooth muscle. In this report, we have characterized the receptors and the cellular mechanisms of these vasoactive peptides on a new isolated smooth muscle preparation, the rabbit vena cava. Receptors were characterized using agonists and antagonists and were found to be of the AT, B2, and NK-1 types. The myotropic responses of the vein to KCl was completely abolished in calcium-free medium; in the presence of nicardipine, nifedipine, and verapamil, three calcium channel antagonists; and of trifluoperazine, a calmodulin antagonist. AT II-, BK-, and SP-induced responses were slightly attenuated in calcium-free medium and in the presence of nifedipine and trifluoperazine. Pinacidil inhibited the contractile response of KCl and the three peptides while lidocaine was active against KCl only. Staurosporine and cholera toxin strongly inhibited the contractile responses of the vein to AT II, BK, SP, and KCl, probably by a nonspecific effect. It is concluded that AT II-, BK-, and SP-induced contractions of the rabbit vena cava are mediated by specific receptors and in part by an influx of extracellular Ca2+ through dihydropyridine-insensitive channels. Opening of K+ channels and inhibition of the Ca(2+)-calmodulin complex appear to interfere with the smooth muscle response to the peptides.

New highly potent bradykinin B2 receptor antagonists

pA2 values of new B2 receptor antagonists ranging from 7.51 to 8.86 were measured on the rabbit jugular vein, while lower values were observed in the other preparations (for instance, the hamster urinary bladder). The most potent antagonists were those containing a hydroxyproline (Hyp) in position 3, a D-Arg at the N-terminal and a Leu instead of a Phe in position 8, with or without other chemical changes. D-Arg[Hyp3,D-Phe7,Leu8]-BK was found to be competitive, selective for B2 receptors and specific for kinins since it was without effect against substance P and angiotensin II in the rabbit jugular vein. The essential feature for obtaining B2 receptor antagonists appears to be the replacement or reorientation of Phe8 of bradykinin. The rabbit jugular vein provides a sensitive bioassay in which the potency and specificity of B2 receptor antagonists can be adequately evaluated.

Characterization of bradykinin receptors in peripheral organs

Bradykinin (BK) and related kinins are potent stimulants of the rabbit jugular vein, the hamster urinary bladder, and the guinea pig trachea. The characterization of kinin receptors in these tissues was made with agonists and antagonists. Results obtained with agonists indicate that bradykinin and kallidin are much more active than des-Arg9-BK and suggest the presence of B2 receptors in the three organs. Some new agonists were also tested and the BK analogue, [Hyp3,Tyr(Me)8]BK, was found to be a potent and selective stimulant of the three preparations, with pD2 values of 8.56, 8.00, and 8.39, respectively, but inactive on the rabbit aorta (a B1-receptor system). Contractile effects of kinins in the rabbit jugular vein and hamster urinary bladder were reduced or eliminated by B2-receptor antagonists but at different concentration levels; e.g., acetyl-D-Arg[Hyp3,D-Phe7]BK showed pA2 values of 7.78 on the rabbit jugular vein but only 5.72 on hamster urinary bladder. This compound contracted the guinea-pig trachea and was found to be inactive as an antagonist on this preparation. Contractions of the hamster urinary bladder and the guinea-pig trachea in response to bradykinin were markedly reduced or eliminated by indomethacin and by BW 755C, while those of the rabbit jugular vein were not modified. The present findings indicate that the myotropic effect of kinins on the rabbit jugular vein depends on the activation of B2 receptors and suggest that B2 receptors are largely responsible also for the response of the hamster urinary bladder. B2 receptors and (or) a nonreceptor mechanism appear to be involved in the stimulant effects of the kinin agonists and some antagonists in the guinea-pig trachea.

Characterization of bombesin receptors in peripheral contractile organs

1 Guinea-pig and rat urinary bladders, rat stomach and the guinea-pig gall bladder, four isolated organs that show high sensitivity to bombesin, were used to characterize bombesin receptors in peripheral organs. 2 The order of potency of agonists was determined with several naturally occurring peptides of the bombesin series, namely bombesin (BBS), litorin (Lit), neuromedin B (NMB), the gastrin-releasing peptide (GRP 18-27), neuromedin C (NMC) and with some bombesin fragments. It was found that bombesin, neuromedin C, litorin and two bombesin fragments, BBS (6-14) and AcBBS (6-14) had similar activities in the four preparations, while neuromedin B and [Phe6]-neuromedin C were more active on the rat urinary bladder than on the other tissues. 3 The order of potency of agonists determined in the rat urinary bladder was as follows: BBS = NMB greater than Lit greater than NMC greater than [Phe6]NMC = GRP and it was found to be different from that observed in the other preparations: BBS greater than GRP = Lit greater than or equal to NMC much greater than NMB greater than [Phe6]NMC, suggesting the existence of two different bombesin receptors, BBS1 and BBS2. 4 This interpretation was convalidated by the finding that bombesin antagonists, namely Ac.GRP(20-26)OCH3 and Ac.GRP(20-26)OC2H5 reduced or blocked the effects of bombesin-related peptides on BBS2 receptor systems while being completely inactive on the rat urinary bladder (BBS1 system).

Selectivity and specificity of new, non-peptide, quinuclidine antagonists of substance P

Two members of a new class of non-peptide antagonists of substance P, (+-)-cis-3-(2-methoxybenzylamino)-2-benzhydrylquinuclidine [(+/-)-CP-96,345; I] and (+-)-cis-3-(2-chlorobenzylamino)-2-benzhydrylquinuclidine [II], were tested for their ability to antagonize neurokinin-induced contractions of the rabbit cava and jugular veins (NK-1), the rabbit pulmonary artery (NK-2) and the rat portal vein (NK-3 system). Compound 1 is the most potent NK-1 receptor antagonist identified until now; its apparent affinity (pA2 = 9.52) is at least two log units higher than those of other NK-1 antagonists. Compound II is less active. Both compounds have been found to be almost inactive as NK-2 and NK-3 antagonists and should, therefore, be considered as selective for the NK-1 receptor. The new compounds have no direct myotropic effects and are specific for neurokinin (NK-1) receptors since they do not affect the myotropic effects of angiotensin, noradrenaline and bradykinin in the rabbit cava and jugular veins.

DuP 753 is a specific antagonist for the angiotensin receptor

2-n-Butyl-4-chloro-5-hydroxy-methyl-1-[(2'-(1H)-tetrazol-5-yl)biph enyl-4- yl)methyl]imidazol potassium salt (DuP 753) is a nonpeptide angiotensin II receptor antagonist that inhibits the contractile effects of angiotensin II competitively and shows pA2 values of 8.27 on the rabbit aorta and jugular vein, 8.66 on the rat portal vein and stomach, 8.19 on the rat urinary bladder, and 8.36 on human colon, ileum, and urinary bladder. This agent (more than 10(-5) M) exhibits no agonistic activity and does not affect the contractile effects of norepinephrine, acetylcholine, bradykinin, desArg9-bradykinin, substance P, neurokinin A, neurokinin B, or bombesin in the various tissues. The present results demonstrate that DuP 753 is a potent nonpeptide antagonist with high affinity, specificity, and selectivity for the angiotensin receptor.

Structure-activity studies of bradykinin and related peptides. B2-receptor antagonists

Thirty-seven compounds were tested as antagonists of kinin B2- and B1-receptors to identify the chemical changes required to obtain antagonism, improve antagonist affinity, and eliminate residual agonistic activities. Apparent affinity of antagonists was evaluated in terms of pA2 on the rabbit jugular vein, the dog carotid and renal arteries, the hamster urinary bladder, the guinea pig ileum, the rat vas deferens, the guinea pig trachea, and the rabbit aorta, using bradykinin and desArg9-bradykinin as B2- and B1-receptor activators. Replacement of Pro7 of bradykinin with D-Phe leads to antagonism; substitution of Pro3 by Hyp and extension of the peptide chain at the N-terminal with a D-Arg residue improves the affinity of antagonists; acetylation of N-terminal amine function reduces residual agonistic activity; these changes, combined with the replacement of Phe8 by Leu as in Ac-D-Arg[Hyp3,D-Phe7,Leu8]-bradykinin, led to potent full B2-receptor antagonists. Affinity of antagonists differs markedly between highly sensitive (rabbit jugular vein, dog carotid and renal artery), moderately sensitive (hamster urinary bladder, guinea pig ileum, and rat vas deferens), and insensitive preparations (the guinea pig trachea) in which antagonists act as potent stimulants. High concentrations of antagonists block bradykinin completely in the rabbit jugular vein but not in the guinea pig ileum, suggesting that kinins stimulate the moderately sensitive tissues by two mechanisms, of which only one is blocked by antagonists. It thus appears that kinins act on various B2-receptor subtypes or by different action mechanisms.

Neurokinin receptors antagonists: old and new

Four neurokinin antagonists of different size have been used to counteract the myotropic effects of substance P, neurokinin A and neurokinin B in isolated organs containing a single receptor type (monoreceptor systems). These are: the dog carotid artery, the rabbit jugular and cava veins and the guinea pig ileum (NK-1), the rabbit pulmonary artery (NK-2) and the rat portal vein (NK-3). Undeca and octapeptides containing 2 D-Trp residues in their sequences were slightly more active on the NK-1, than on the NK-2 and NK-3 receptors and showed little selectivity. In contrast, compound AcThr-D.Trp(For)-Phe.NMe Bz was found to be as good an antagonist as the larger compounds and showed some selectivity for the NK-1 receptors. When tested against kinins or angiotensin, all compounds were found to be inactive, suggesting that they are specific for neurokinins. The present results show that NK-1 receptor antagonism can be obtained with compounds of different size, including tripeptides and nonpeptides.

Antagonists for the neurokinin NK-3 receptor evaluated in selective receptor systems

Four isolated vessels that are monoreceptor systems for neurokinins, the dog carotid artery and rabbit jugular vein (NK-1), the rabbit pulmonary artery (NK-2) and the rat portal vein (NK-3), were used to compare the activities of selective neurokinin agonists and evaluate the affinities of new NK-3 antagonists. Chemical modifications in the partial sequences NKA (4-10) and NKB (4-10), particularly the replacement of Val7 with an aromatic residue (Tyr, MePhe or Trp) and the extension of the peptide backbone in position 8, obtained with beta-Ala, led to compounds that maintain weak agonistic activities on the NK-1 and NK-2, and some of them also on NK-3 receptors but exert potent antagonism against NKB on the NK-3 receptor of the rat portal vein. Antagonistic affinity is the highest when Trp is used in position 7 of [beta-Ala8]-NKA (4-10) and MePhe in position 7 of [beta-Ala8]-NKB (4-10). Antagonism is selective for NKB or [MePhe7]-NKB, and appears to be specific, since the most active compound [Trp7, beta-Ala8]-NKA (4-10) is inactive against bradykinin on the rabbit jugular vein (B2 receptor), against SP on the rabbit jugular vein (NK-1 receptor), against desArg9-bradykinin on the rabbit aorta (B1 receptor), and against angiotensin II and histamine (AT and H receptors, respectively) in the rabbit aorta. The new NK-3 receptor antagonists described in the present study provide useful tools for neurokinin receptor characterization and for determining the roles of neurokinins in physiopathology.

The rabbit jugular vein is a contractile NK-1 receptor system

Rabbit isolated jugular veins respond to substance P and related neurokinins with concentration-dependent contractions which appears to be due to the activation of a single neurokinin receptor of the NK-1 type. This is demonstrated by the order of potency of neurokinins and some of their fragments as well as by the strong activity of NK-1-selective agonists and the weakness of NK-2- and NK-3-selective agonists. The present results indicate that the rabbit jugular vein provides a sensitive, specific and selective NK-1 preparation which responds directly to neurokinins with contractions and therefore can be useful for characterization of NK-1 agonists and antagonists.

Receptors for neurokinins in human bronchus and urinary bladder are of the NK-2 type

Human tissues such as the isolated bronchus and urinary bladder respond to neurokinins with concentration-dependent contractions, which appear to be due to the activation of receptors. We characterized these receptors in the present study using agonists (the naturally occurring neurokinins and some selective agonists) as well as newly identified antagonists. The order of potency of the agonists in the two preparations was as follows: neurokinin A (NKA) greater than substance P (SP) greater than neurokinin B (NKB) (bronchus) and NKA greater than NKB greater than SP (bladder), which suggests the presence of NK-2 receptors. This was confirmed by data obtained with two antagonists, one of which was shown to be competitive and selective for NK-2 type receptors. It thus appears that receptors of the NK-2 type are present in humans along the tracheo-bronchial tree and in the urinary system.

Structure-activity studies on bradykinin and related peptides: agonists

1. Bradykinin, kallidin, T-kinin, [Hyp3]-bradykinin and several analogues were prepared by solid-phase synthesis and purified by high performance liquid chromatography. 2. The various peptides were tested for their abilities to relax the dog carotid and renal arteries, or to contract the rabbit jugular vein and aorta, in order to measure their activities on BK2 (the first three preparations) or BK1 (the rabbit aorta) receptors. The dog renal artery without endothelium was also used as a BK1 receptor system. 3. T-kinin was found to be less active than bradykinin, while the replacement of Pro3 with Hyp favoured BK2 receptor occupation. [Hyp3,Tyr(Me)8]-BK was found to be a selective BK2 receptor agonist. 4. Amidation or methylation of the C-terminal carboxyl decreased activity, while extension of the N-terminal with Sar or D-Arg increased affinity and selectivity for BK1 (Sar) and affinity for BK2 (D-Arg) receptors. Acetylation of N-terminal amide brought affinity down to 10% or less. 5. Replacement of the peptide bonds Phe8-Arg9 to protect from kininase I and II, decreased affinities slightly, but was incompatible with additional changes at the N-terminal or in the peptide bond Gly4-Phe5. 6. Substitution of C-terminal Phe in desArg9-BK (the BK1 receptor stimulant) with D-Phe increased potency and selectivity for BK1 receptors while protecting from carboxypeptidases. Sar[D-Phe8]desArg9-BK was found to be a potent and selective BK1 receptor agonist.

Structure-activity study of neurokinins: antagonists for the neurokinin-2 receptor

A series of 21 peptides were synthesized and tested in a variety of isolated organs in order to determine their potential as neurokinin-2 (NK-2) antagonists. The peptides have been tested in the three monoreceptor systems, the dog carotid artery (NK-1), the rabbit pulmonary artery (NK-2) and the rat portal vein (NK-3) as well as on other preparations containing NK-2 receptors, such as the rat vas deferens, the hamster urinary bladder, the guinea-pig trachea and the human urinary bladder. Some of the compounds have also been tested on the human isolated bronchus. Three compounds, of which two are linear peptides, Ac.Leu-Asp-Gln-Trp-Phe-Gly.NH2, Thr-Asp-Tyr-D-Trp-Val-D-Trp-D-Trp-Arg.NH2 and a cyclic one, cyclo[Gln-Trp-Phe-Gly-Leu-Met] have been shown to reduce or eliminate the effects of neurokinin A (NKA) in practically all the preparations containing NK-2 receptors. The first compound was found to be selective for the NK-2 receptor and showed only agonistic or no activity on the other receptor systems, while the second compound showed some antagonistic effects not only on the NK-2 but also on the other systems. The cyclic compound was found to be fairly selective for the NK-2 receptor. The first compound (Ac.Leu-Asp-Gln-Trp-Phe-Gly.NH2) was characterized with respect to its specificity for neurokinins (NK): it was found to be inactive on receptors for acetylcholine, noradrenaline, angiotensin and des Arg9-bradykinin in the rabbit pulmonary artery. Moreover, the compound exerted a competitive type of antagonism on the rabbit pulmonary artery and on the hamster urinary bladder. Although of moderate affinity, the NK-2 receptor antagonists described in this paper provide important tools for pharmacological studies on NK.

Inhibitors of peptidases: how they influence the biological activities of substance P, neurokinins, kinins and angiotensins in isolated vessels

Myotropic effects of various peptides were measured in three isolated vessels, the dog carotid artery, the rabbit pulmonary artery and the rat portal vein in the absence and in presence of several peptidase inhibitors, in order to evaluate the interference by metabolism with the peptides' biological activities. After adequate controls, captopril (4.6 x 10(-6) mol/l), thiorphan (1.0 x 10(-6) mol/l), phosphoramidon (4.6 x 10(-6) mol/l), chymostatin (1 mg/l), bestatin (8.1 x 10(-6) mol/l) or bacitracin (1.4 x 10(-5) mol/l) were left in contact with the tissues for 20-40 min to inhibit tissue peptidases before measuring again the biological effects of the various peptides. In some experiments, mergetpa (5.4 x 10(-6) mol/l) was used. All peptidase inhibitors were inactive on their own and only captopril potentiated the effects of substance P, neurokinins, bradykinin and inhibited angiotensin I in two preparations, the dog carotid artery, the rat portal vein, and, excluding bradykinin, also in the rabbit pulmonary artery. Captopril and thiorphan significantly potentiated the maximal response of the rat portal vein to substance P and mergetpa inhibited completely the effect of bradykinin on the rabbit pulmonary artery. The present findings suggest that the most active proteolytic enzyme interfering with the biological effects of vasoactive peptides on three isolated vessels is the angiotensin-converting enzyme (kininase II).

[Leu9 psi(CH2NH)Leu10]-neurokinin A (4-10) (MDL 28,564) distinguishes tissue tachykinin peptide NK2 receptors

The neurokinin A analogue, MDL 28,564 (Asp-Ser-Phe-Val-Gly-Leu-CH2NH-Leu-NH2), inhibited 125I-NKA binding to hamster urinary bladder NK2 receptors with a KI of 130 nM. For rat submaxillary gland NK1 receptors and cerebral cortical NK3 receptors, the KI's for MDL 28,564 were greater than 250 microM and greater than 500 microM, respectively. MDL 28,564 did not relax dog carotid artery (NK1 tissue) or contract rat portal vein (NK3 tissue). In guinea-pig trachea tissues, MDL 28,564 stimulated phosphatidylinositol turnover and induced contraction with maximum effects similar to those of neurokinin A. In hamster urinary bladder tissue, MDL 28,564 stimulated phosphatidylinositol turnover with maximum effect only 10% of that of neurokinin A, did not produce sustained contraction itself and antagonized NKA-induced contraction. MDL 28,564 also produced full contraction in rabbit pulmonary artery (NK2 tissue) but was inactive in rat vas deferens (NK2 tissue). These data with MDL 28,564 are consistent with the NK2 receptors in guinea-pig trachea and rabbit pulmonary artery being different from those in hamster urinary bladder and rat vas deferens.

Neurokinin A. A pharmacological study

Discovered in 1983, the decapeptide neurokinin A has been shown to occur in several peripheral organs and to exert a variety of biological effects. In this article, we review the most sensitive and selective in vivo and in vitro tests which have been used in various laboratories to evaluate naturally occurring or synthetic neurokinin A. A comparison of the effects of neurokinin A and those of its mammalian homologues, substance P and neurokinin B as well as those of tachykinins and related peptides is presented in the frame of a study directed toward characterization of neurokinin receptors. Indeed, neurokinin A has been shown to be particularly active on a neurokinin receptor subtype, the NK-2. Structure-activity studies performed with neurokinin A and its fragments as well as with several analogues of both the decapeptide and the heptapeptide NKA(4-10) have brought to the identification of the minimum structure required for activation of NK-2 receptors. Selective agonists for this receptor have been identified, in particular [Nle10]-NKA(4-10) and [beta-Ala8]-NKA(4-10).

Inhibitors of peptidases: how they influence the biological activities of substance P, neurokinins, bradykinin and angiotensin in guinea pig, hamster and rat urinary bladders

Neurokinins, bradykinin and angiotensins were tested in isolated urinary bladder of the guinea pig, the hamster and the rat, in the absence and in presence of a variety of peptidase inhibitors in order to establish if peptide degradation interferes with the bladder contractions elicited by the three types of peptides. Indeed, the effects of neurokinins, bradykinin and angiotensin I in the guinea pig bladder were significantly enhanced by captopril (4.6 x 10(-6) mol/l), chymostatin (1 mg/l), phosphoramidon (4.6 x 10(-6) mol/l) and thiorphan (1.0 x 10(-6) mol/l), while only captopril was found to potentiate the effects of the same peptides in the rat bladder. The four peptidase inhibitors, as well as bacitracin were found to modify the responses of the hamster urinary bladder to one or another or to all three groups of peptides and to DiMeC7. The present results suggest that the urinary bladders of various species have different types of active proteolytic enzymes: only the angiotensin-converting enzyme appears to be present in the rat bladder, while the same enzyme and possibly two additional endopeptidases interfere with the myotropic effects of neurokinins, kinins and angiotensins in the guinea pig and the hamster bladder.

Structure-activity studies of neurokinin A

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.

Receptors for kinins in isolated arterial vessels of dogs

A variety of kinin peptides, agonists and antagonists were tested with dog carotid and renal arteries in order to characterize kinin receptor types and functions. The dog carotid artery responds to bradykinin with concentration-dependent relaxation only when the endothelium is intact but des-Arg9-bradykinin is practically inactive. The effect of bradykinin is blocked by B2 receptor antagonists, suggesting that the dog carotid artery has B2 receptors in the endothelium. These receptors mediate relaxation of the arterial smooth muscles by promoting the release of an endothelium-derived relaxing factor whose action is prevented by methylene blue. Kinins relax the dog renal artery with or without endothelium. Methylene blue prevents the effect of bradykinin only, suggesting that B2 receptors, promoting the release of endothelium-derived relaxing factor, are present in the endothelium of the dog renal artery. Moreover, the dog renal artery appears to have both B2 and B1 receptors mediating relaxation of the arterial smooth muscle. The presence of the two receptor types has been demonstrated by means of specific agonists and antagonists. Indomethacin blocks the effects of both bradykinin and des-Arg9-bradykinin on the dog renal artery without endothelium, suggesting that muscular B1 and B2 receptors act by promoting the release of prostaglandins. Captopril, a kininase II inhibitor, potentiates the effect of bradykinin on the dog carotid artery more than on the dog renal artery.

Selective agonists for receptors of substance P and related neurokinins

Neurokinins and their receptors are a complex system consisting of at least three endogenous agents--substance P (SP), neurokinin A (NKA), and neurokinin B (NKB)--and their corresponding receptor types, respectively, NK-1, NK-2, and NK-3. Investigations on receptors have been made using sensitive and fairly selective pharmacological preparations (the dog carotid artery for the NK-1, the rabbit pulmonary artery devoid of endothelium for the NK-2, and the rat portal vein for the NK-3 receptor), and some natural peptides of mammalian and nonmammalian origin. Because of the nonselectivity of the natural peptides, analogues of the neurokinins have been found that act on one receptor only and show therefore high selectivity. The selective agonists [Sar9,Met(O2)11]SP, [Nle10]NKA (4-10), and [MePhe7]-NKB have been used successfully for (a) characterizing the three neurokinin receptors, (b) identifying isolated organs whose responses to neurokinins depend on the activation of a single (monoreceptor systems) or of more than one (multireceptor systems) receptor, and (c) elucidating some of the physiological function of the three receptor types. It is suggested that NK-1 mediate peripheral vasodilatation and exocrine secretions, NK-2 stimulate bronchial muscles and facilitate the release of catecholamines, and NK-3 promote the release of acetylcholine in peripheral organs.

Characterization of neurokinin receptors in various isolated organs by the use of selective agonists

The three mammalian neurokinins, substance P, neurokinin A and neurokinin B, as well as some agonists selective for their respective receptors, NK-P, NK-A and NK-B, were tested in a variety of pharmacological preparations in order to evaluate if the biological responses of the various tissues were mediated by single or multiple receptor types. Previous observations that the dog carotid artery, the rabbit pulmonary artery and the rat portal vein are selective preparations respectively for SP, NKA and NKB were confirmed in the present study by showing that only the respective selective agonists were active on these tissues. Multiple functional sites were demonstrated in intestinal tissues (guinea pig ileum, rat duodenum), which apparently contain the three neurokinin receptors. A large number of NK-P, together with some NK-A receptor sites were found in the guinea pig and rat urinary bladder. Similarly, the guinea pig trachea and the rabbit mesenteric vein contain NK-A and NK-P functional sites. Rat and rabbit vas deferens stimulated electrically respond as typical NK-A preparations, since they are almost insensitive to SP or NKB selective agonists. A mixture of NK-A and NK-B receptor sites has been shown to be present in the hamster urinary bladder: dog and human urinary bladder definitely contain NK-A receptors and the dog bladder also some NK-P functional sites.