Analogues of arginine vasopressin and its agonist and antagonist modified in the N-terminal part of the molecule with l-beta-homophenylalanine.

In continuation of our efforts to elucidate the role of positions 2 and 3 in arginine vasopressin (AVP) and its analogues, we designed and synthesized peptides modified in these positions with l-beta-homophenylalanine (beta-Hph). Two of them had just this single modification, the next two peptides are analogues of the V2 agonist, namely [3-mercaptopropionic acid (Mpa)1]AVP (dAVP). The last two compounds were designed by substitution of positions 2 or 3 of a potent V(1a) antagonist, [1-mercaptocyclohexaneacetic acid (Cpa)1]AVP, with beta-Hph. All the peptides were tested for their pressor and antidiuretic and uterotonic in vitro activities in the rat. All the activities tested have been found to be significantly decreased. Three analogues, i.e. [Mpa(1),beta-Hph2]AVP, [Cpa1,beta-Hph2]AVP, [Cpa1,beta-Hph3]AVP, turned out to be uterotonic antagonists with pA2 = 6.3 +/- 0.2, 6.3 +/- 0.1, 6.0 +/- 0.3 respectively. The last one exhibited antipressor properties also (pA2 = 6.4 +/- 0.1).

Analogues of arginine vasopressin modified in the N-terminal part of the molecule with enantiomers of N-methylphenylalanine.

Four new analogues of arginine vasopressin (AVP) substituted in positions 2 and 3 with all possible combinations of enantiomers of N-methylphenylalanine were synthesized and studied to assess the influence of N-methylation of the peptide bonds between the first three amino acids on the pharmacological properties of the resulting peptides. The next three analogues were designed to learn how the shortening of the peptide chain, by removal of one of the N-methylphenylalanine residues, would affect pharmacological properties of the resulting compounds. The activity of the analogues was tested in the in vitro uterotonic, pressor and antidiuretic tests. None of the prepared analogues displayed significant biological activity with the exception of [Me-d-Phe(2), Me-Phe(3)]AVP and [Me-d-Phe(2,3)]AVP, which showed low antiuterotonic activity (pA(2) = 6.6 and pA(2) = 6.4, respectively). Our results, while not impressive in terms of biological activity, may be helpful for designing potent and selective oxytocin antagonists.

Potent bradykinin antagonists containing N-benzylglycine or N-benzyl-l-alanine in position 8.

Two new analogues of a previously designed bradykinin (BK) antagonist, d-Arg-Arg-Pro-Hyp-Gly-Thi-Ser-d-Phe-Thi-Arg, substituted in position 8 by N-benzylglycine and N-benzyl-l-alanine were designed, synthesized and bioassayed. The results show an impressive enhancement of B2 antagonistic potencies of both peptides in comparison with the model. In two further analogues these modifications were combined with acylation of the N-terminus with 1-adamantanacarboxylic acid. Acylated analogues exhibited higher antagonistic potency in comparison with the parent compounds, however, the range of effect was not as high as in previously described cases. The activity of analogues was assessed by their ability to inhibit vasodepressor response to exogenous BK (rat blood pressure test). Our results may be of value in the design of more potent BK antagonists.

Influence of 1-aminocyclohexane-1-carboxylic acid in position 2 or 3 of AVP and its analogues on their pharmacological properties.

In this study we describe the synthesis and some pharmacological properties of seven new analogues of arginine vasopressin (AVP) substituted in position 2 or 3 with 1-aminocyclohexane-1-carboxylic acid (Acc). All peptides were tested for the pressor, antidiuretic and uterotonic in vitro activities. The Acc3 modifications of AVP, dAVP, [d-Arg8]VP and [Cpa1]AVP have been found to be deleterious for interaction with all three neurohypophyseal hormone receptors, as judged from the several orders of magnitude decreased biological activities, whereas Acc2 substitution selectively altered the interaction with the receptors. Two of the new analogues, [Acc2]AVP and [Acc2, d-Arg8]AVP, are potent antidiuretic agonists. [Acc2]AVP exhibits moderate pressor agonistic activity and weak antiuterotonic properties. [Acc2, d-Arg8]AVP has been found to be a weak antagonist in the pressor and uterotonic tests. Another analogue - [Cpa1, Acc3]AVP - turned out to be a highly selective V2 agonist. This is an unexpected effect, as its parent peptide, [Cpa1]AVP is a very potent V1a receptor antagonist. This is the first Cpa1 modification to have resulted in V2 agonism enhancement. Besides providing useful information about structure-activity relationships, our results could open up new possibilities in the design of highly potent and selective V2 agonists.

New analogues of bradykinin containing a conformationally restricted dipeptide fragment in their molecules.

The present paper describes the synthesis and some pharmacological properties of two new bradykinin analogues containing the ethylene-bridged dipeptide Phe-Phe in their molecules. In a further two peptides this modification was combined with acylation of the N-terminus with 1-adamantaneacetic acid. Finally, we synthesized four analogues by removing the Ser6 residue from the four peptides mentioned above. The activity of the new analogues was assayed on isolated rat uterus (RUT) and in rat blood pressure tests (BPT). The results clearly indicate that the proposed modification, alone or in combination with other changes, resulted in either a drop in antiuterotonic activity or even in conversion to an agonism. Although this tendency is not so distinct in blood pressure assays, the antagonistic potency of the new analogues is also diminished. Nevertheless, it was demonstrated that the D-amino acid in position 7 which, until recently, was considered necessary for antagonism, may be replaced, together with the amino acid occupying position 8, by a suitable, sterically restricted L,L-dipeptide unit.

Analogs of oxytocin conformationally restricted in the N-terminal part of the molecule.

In this study we describe the synthesis and some pharmacological properties of four analogs of oxytocin. Three of these peptides contain the ethylene-bridged dipeptide D-Phe-D-Phe at positions 2 and 3; one had two N-Me-D-Phe residues. All analogs were tested for vasopressor and uterotonic activities in vitro. Although the results obtained demonstrate that the proposed modifications either suppressed or greatly reduced all the activities verified, two peptides are very selective, because they do not seem to interact with V1a receptors. Our results may open up new possibilities for the design of antagonists of oxytocin.

Analogues of arginine vasopressin modified in position 2 or 3 with naphthylalanine: selective antagonists of oxytocin in-vitro.

In this study we describe the synthesis and some pharmacological properties of six new analogues of arginine vasopressin (AVP). Five of the peptides were substituted in position 2 with L-1-naphthylalanine (L-1-Nal) or D-1-naphthylalanine (D-1-Nal); one had D-1-Nal in position 3. All analogues were tested in bioassays for pressor and antidiuretic activity. We also tested the uterotonic activity of the peptides in-vitro. Two of the new peptides were moderately potent V1a and oxytocin antagonists. The modifications proposed resulted in a drop or the removal of antidiuretic activity and in the removal of pressor activity, or conversion into moderate antagonists. Two peptides ([Mpa1, (L-1-Nal)2]AVP and [Mpal, (D-1-Nal)2]AVP) which appear not to interact with V1a and V2 receptors were exceptionally selective oxytocin antagonists in vitro. These compounds with selective oxytocin antagonistic activity may be promising candidates for the development of potential tocolytic agents for the prevention of pre-term labour.

New bradykinin analogs in contraction of rat uterus.

In this study, we evaluated 20 of our previously synthesized peptides on isolated rat uterus by Holton's procedure with minor modifications, and compared their activity with that assessed previously by their ability to inhibit vasodepressor response to exogenous bradykinin (BK) in conscious rats. We used [D-Arg(0), Hyp(3), Thi(5, 8), (D-Phe)(7)]BK, the B(2) antagonist of Vavrek and Stewart as a model when designing our analogs. We observed that, in the case of the rat uterus test, the activity of peptides modified by acylation of the N-terminus with various bulky groups depends substantially on the chemical character of the substituent. We also learned that, contrary to previous examples, acylation of the N-terminus of antagonists, which contain a sterically restricted fragment in the C-terminal part, may not improve their antagonistic potencies. Besides an improved characterization of a series BK analogs, our studies have provided new information on the structure-activity relationship, which in turn may be of value in the design of more potent and selective bradykinin antagonists. The results of our studies appear to support the hypothesis of others about the presence of different subtypes of B(2) receptors in rat uterus and blood vessels.

Biologically active analogues of arginine vasopressin containing conformationally restricted dipeptide fragments.

In this study we described the synthesis and pharmacological properties of five new analogues of arginine vasopressin (AVP). Four of these analogues contained ethylene-bridged dipeptide Phe-Phe in positions 2 and 3; one had two N-Me-Phe residues. All new peptides were tested for vasopressor and antidiuretic activities. We also estimated the uterotonic activities of these compounds in vitro. Three analogues were highly potent V1-antagonists. One of them, namely [Cpa1,(Phe-Phe)2,3,Val4]AVP, which seemed to not interact with either V2 and oxytocic receptors, was outstandingly selective. It is interesting that the high antipressor potency of our second peptide, [(N-Me-Phe)2,3]AVP, was achieved without modification of position 1. Our results open new possibilities for the design of very potent and selective V1-antagonists of AVP.

Influence of L-naphthylalanine in position 3 of AVP and its analogues on their pharmacological properties.

We describe the synthesis and pharmacological properties of two series of analogues: one which consists of three peptides having L-1-naphthylalanine in position 3 and the second composed of analogues substituted in position 3 with L-2-naphthylalanine. All peptides were tested in bioassays for pressor and antidiuretic activities. We also checked the uterotonic activity in vitro. We observed that the activity of counterparts in both series is, in two cases, strikingly different. One of the new analogues, [(L-2-Nal)3,(D-Arg)8]VP is among the most potent antagonists of the vasopressor response to AVP. Moreover, it is the first potent V1 antagonist devoid of antiuterotonic activity. This analogue was designed without modification of position 1, which was previously thought to be essential for substantial pressor antagonism. Two other peptides, [Mpa1;(L-2-Nal)3;(D-Arg)8]VP and [Mpa1,(L-1-Nal)3,D-Arg)8]VP, are highly potent V2 agonists. The second analogue is highly selective. With the exception of [(L-2-Nal)3]AVP, which showed weak antioxytocic activity, (L-Nal)3 modification resulted in the almost complete removal of interaction of our analogues with oxytocic receptors in vitro. Our results suggest that position 3 in AVP and its analogues is important not only for binding and recognition as previously though, but also for pressor, antidiuretic and uterotonic activities. We also assume that the hindering effect caused by bulky naphthyl moiety has a significant impact on the bioactive conformations of molecules which contain Nal residue, and can thus influence their interaction with V1, V2 and oxytocic receptors.

Structure--function studies of vasopressin analogues with D-3 pyridyl-alanine in position 2.

A number of analogues of vasopressin, incorporating the substitution of D-3'-(pyridyl)-alanine in position 2, were synthesized and tested for antidiuretic (V2), vasoconstrictor (V1a) and ACTH secretory (V1b; pituitary) activities. One analogue, deamino-[D-3'-(pyridyl)-alanine2]arginine-vasopressin (abbreviated d[D-3Pal]VP) was a potent pituitary agonist, weaker antidiuretic agonist, and weak vasoconstrictor antagonist. Another analogue, [D-3'-(pyridyl)-alanine2]arginine-vasopressin, had very weak pituitary activity but no measurable antidiuretic or vasoconstrictor activity. Other D-3'-(pyridyl)-alanine-substituted analogues had only very weak activity in one or two of the bioassays. In further examination of the relationship between the actions of vasopressin on generation of cyclic AMP and secretion of ACTH in pituitary cells, the cyclic AMP responses to d[D-3Pal]VP, to another analogue of vasopressin ([Val4,D-Arg8]VP) with potent agonist activity at pituitary and renal (V2) receptors, and to CRF were compared to that of vasopressin. At the prescribed concentrations, the ACTH secretory responses to vasopressin, d[D-3Pal]VP, and [Val4,D-Arg8]VP were comparable; but only ([Val4,D-Arg8]VP) and CRF, which did not change ACTH secretion, increased intracellular cyclic AMP. These results indicate the possibility of synthesizing analogues of vasopressin with selective activity for the pituitary response and the potential for further study of vasopressin receptor subtypes, using the D-3'-(pyridyl)-alanine substitution. They are also consistent with the concept that the ACTH secretory response to vasopressin by itself is not linked to cyclic AMP, although adenylate cyclase may be activated.

New antagonists of the vasopressin receptor mediated contraction in rat tail artery.

A perfused isolated rat tail artery preparation was employed to study antagonistic properties of four newly synthesized arginine-vasopressin (AVP) analogues against the V1 receptor. The activity of the agents SCATyr(Me)AVP, OCATyr(Me)AVP, OCAAVP and SCAAVP was related to that of a recognized antagonist d(CH2)5Tyr(Me)AVP. SCATyr(Me)AVP elicited outstanding antagonistic properties by blocking at concentration of 10(-7) M nearly completely the constrictory activity of AVP. At concentration of 10(-9) M the agent inhibited the AVP-induced constriction of artery about 40 times more effectively than the oxytocin (OXT)-induced constriction. The results obtained prove the validity of the structure-activity relationship based search for new potent V1 receptor antagonists.

A potent new synthetic analog of vasopressin with relative agonist specificity for the pituitary.

The biological activity of a new synthetic analog of vasopressin, deamino[D-3-(3'-pyridyl)-Ala2, Arg8] vasopressin, was assessed in a number of assays. Antidiuretic (V2) and vasoconstrictor (V1), agonist and antagonist activities were assessed in rats in vivo. Corticotropin-releasing activity was assessed with cultured dissociated ovine anterior pituitary cells in vitro and in sheep in vivo. Compared to vasopressin, the analog is a weak agonist at antidiuretic receptors (1/381 compared to AVP); it is a weak antagonist of the vasoconstrictor response (pA2 = 6.22). Nonetheless, the analog is a full, relatively potent agonist at pituitary corticotrope receptors (relative potency of 1/36). These data indicate that analogs of vasopressin can be synthesized which are relatively selective for agonist activity at pituitary vasopressin receptors, and in doing so, further support the contention that the pituitary receptor is quite distinct from the classical V1 receptor.

Synthesis and some pharmacologic properties of five novel V1 or V1/V2 antagonists of AVP.

Based on [1-(1-mercaptocyclohexaneacetic acid),2-(O-ethyl-D-tyrosine),4-valine]-8-arginine-vasopressin as a model, five new analogues of arginine-vasopressin (AVP) were designed and synthesized. Four of them have in position 1 a large lipophilic substituent, whereas the fifth contains pchloro-D-phenylalanine at position 2. We found that the anti-antidiuretic potency with 1-mercapto-4-methycyclohexaneacetic acid is higher than with 1-mercaptocyclohexaneacetic acid (model peptide) in position 1 and this analogue is among the most potent antagonists of the antidiuretic response to AVP known to date. Upon further increase of the size of substituents, antagonistic potency was significantly decreased or totally eliminated. As for the substitution of p-chloro-D-phenylalanine in position 2, we conclude that this modification leads to substantial decrease of the V2 antagonistic potency.

Synthesis and some pharmacological properties of three new analogues of arginine-vasopressin modified in positions 1,2,4 and 9.

We have synthesized three new analogues of arginine-vasopressin (AVP) to determine some of the structural features that account for antagonistic potency. These analogues are as follows: 4-glutamic acid (gamma-N,N-diethylamide)-8-arginine-vasopressin (I), N,N-diethylamide 1-(1-mercaptocyclohexaneacetic acid)-2-0-methyltyrosine- 4-glutamic acid (gamma-N,N-diethylamide)-8-arginine-vasopressin (II) and 1-(1-mercaptocyclohexaneacetic acid)-2-0-methyltyrosine-4-glutamic acid (gamma-glycine amide)-8-arginine-vasopressin (III). Analogues II and III are weak and moderate antagonists of the vasopressor response to AVP, respectively. Analogue III only exhibits a weak anti-antidiuretic activity. Analogue I lacks antagonistic effects in both systems.

Synthesis of 8-D-arginine vasopressin analogues, modified in position 1 as antagonists of the vasopressor response to the parent hormone.

The synthesis of three new arginine vasopressin (AVP) analogues with changes at position 1 and 8 is reported. They are: 1-(1-mercapto-4-methylcyclohexaneacetic acid)-8-D-arginine-vasopressin, 1-(4-tert-butyl-1-mercaptocyclohexaneacetic acid)-8-D-arginine-vasopressin and 1-(1-mercapto-4-phenylcyclohexaneacetic acid)-8-D-arginine-vasopressin. They all proved to be potent and selective antagonists of the vasopressor response to AVP. They lacked antagonism in the antidiuretic assay (AD), but retained small agonism in this system. The Arg8 substitution instead of Arg8 in case of the described AVP analogues did not lead to any significant change of antagonistic potency or selectivity.