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Query: UNIPROT:P01178 (
oxytocin
)
15,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new structural class of cyclic hexapeptide
oxytocin
antagonists derived from Streptomyces silvensis and typified by L-365,209 (cyclo-[L-prolyl1-D-phenylalanyl2-L- isoleucyl3-D-dehydropiperazyl4-L-dehydroperazyl5-D-(N- methyl)phenylalanyl6]) was recently reported. In this paper we further delineate the structure-activity profile for this new class by systematic study of L-365,209 analogs obtained by total synthesis. The optimal combination of cyclic amino acid ring sizes at positions 1, 4, and 5 and the role of the N-alkyl substituent at position 6 was elucidated. The lipophilic amino acids at positions 2 and 3 and the unusual amino acid D-dehydropiperazic acid at position 4 were found to be the most critical residues for obtaining good oxytocin receptor affinity. Analogs containing a basic side chain at the less critical 5- and 6-positions maintained good receptor affinity and also had useful levels of water solubility for intravenous formulation. By combining potency- and solubility-enhancing substitutions, several analogs were identified that have the desired combination of properties in vitro (22, cyclo-[L-prolyl-D-tryptophanyl-L-isoleucyl-D-pipecolyl-L-pipeco lyl-D- histidyl]; 25, cyclo-[L-prolyl-D-2-naphthylalanyl-L-isoleucyl-D-pipecolyl-L -pipecolyl-D- histidyl]; 26, cyclo-[L-prolyl-D-tryptophanyl-L-isoleucyl-D-dehydropiperazyl-L-++ pipecolyl-D-histidyl]; 33, cyclo-[L-prolyl-D-tryptophanyl-L-isoleucyl-D-pipecolyl-L- piperazinylcarboxy-D-(N-methyl)phenylalanyl]; 34, cyclo-[L-prolyl-D-phenylalanyl-L-isoleucyl-D-dehydropiperazyl-L-or nithyl- D-(N-methyl)phenylalanyl]). In general, this class exhibited good selectivity for binding to the oxytocin receptor versus the arginine vasopressin V1a and V2 receptor subtypes, although increased V2 receptor affinity was observed in one case (32, cyclo[L-prolyl-D-2-naphthylalanyl-L-isoleucyl-D-pipecolyl-L- lysyl-D-(N- methyl)phenylalanyl]). Unexpectedly, compound 33 was found to stimulate contractions of the isolated rat uterus via activation of the uterine
bradykinin receptor
. Compounds 22, 25, 26, 33, and 34 were found to be potent antagonists of
oxytocin
-stimulated contraction of the rat uterus in vitro and in vivo. Compounds 22 and 25 were additionally characterized as potent antagonists of
oxytocin
-stimulated uterine contractions in the near-term pregnant rhesus monkey. These studies thus demonstrate the selectivity and efficacy of certain members of this novel class of antagonists and suggest their use as pharmacological tools in further defining the role of
oxytocin
in both term and preterm labor.
...
PMID:Development of a novel class of cyclic hexapeptide oxytocin antagonists based on a natural product. 133 48
Binding of [3H]
oxytocin
to purified myometrial plasma membranes was unaffected by continuous infusion of bradykinin over 5 days in rats pretreated with oestradiol 2 days before collection of tissue. In contrast,
oxytocin
treatment resulted in a 76% decrease in maximal binding of [3H]
oxytocin
and thereby in oxytocin receptor concentration without affecting the dissociation constant. The KM value (molar concentration giving half maximal contraction) of isolated uterine strips stimulated with
oxytocin
was increased and maximal contractile responses were reduced following
oxytocin
infusions. The binding of [3H]bradykinin to purified plasma membranes was influenced by treatment with both
oxytocin
and bradykinin. Bradykinin infusions down-regulated the
bradykinin receptor
concentration by 19%, while the receptor affinity remained unchanged. Maximal contraction (Emax) values of isolated strips stimulated with bradykinin exhibited a slightly attenuated response and KM values were significantly enhanced. Long-term treatment with
oxytocin
down-regulated myometrial bradykinin receptors by 31%. In addition,
oxytocin
infusions caused Emax to decrease and KM to increase in experiments with isolated uterine strips stimulated with bradykinin. It is concluded that the down-regulation of
oxytocin
and bradykinin receptors following prolonged exposure to
oxytocin
may result from changes in a common pathway for intracellular peptide receptor processing. Likewise, the increased KM values of isolated myometrial strips (despite unchanged dissociation constants) suggest that prolonged
oxytocin
treatment affects the coupling between receptor activation and contractile response.
...
PMID:Receptor-binding characteristics and contractile responsiveness of the myometrium following prolonged infusion of bradykinin and oxytocin in rats. 284 29
Using two different coimmunoprecipitation strategies as well as bioluminescence resonance energy transfer (BRET) techniques, we determined that the human oxytocin receptor forms dimeric and oligomeric complexes in vivo in intact living cells, and that these complexes exist at the cell surface level. Using a BRET-based assay, we found that oligomers can form between
oxytocin
receptors themselves (homo-oligomers) as well as, with a reduced affinity, between the oxytocin receptor and related members of the vasopressin receptor family (V1a and V2 receptors), but not with the more remotely related
bradykinin receptor
. The existence of oxytocin receptor oligomers at the level of the cell surface was demonstrated by a coimmunoprecipitation approach involving direct antibody exposure of intact living cells. Furthermore, this approach demonstrated that cell surface oxytocin receptor oligomerization is ligand independent. However, agonist addition led to an apparent rapid decrease in receptor oligomerization, as assessed by the coimmunoprecipitation approach, indicating that agonist exposure may modulate the oligomerization status. It remains to be determined to what extent oxytocin receptor oligomerization impacts on signal transduction.
...
PMID:Homo- and hetero-dimeric complex formations of the human oxytocin receptor. 1508 77
Rat uterus maintained in situ was used as a bioassay of kinins possibly released in vivo by hyperglycaemia or insulin. Intravenous injections of bradykinin induced contractions of rat uterus which were suppressed by HOE 140, a
bradykinin B2 receptor
antagonist. Des-Arg9-bradykinin, a kinin B1 receptor agonist, did not elicit any response. After propranolol, the effects of bradykinin were enhanced and dose-dependent. This potentiation did not appear in adrenalectomized rats. Captopril, an angiotensin-converting enzyme (ACE) inhibitor, largely increased the effects of bradykinin. In animals pretreated with propranolol, captopril and atosiban, an
oxytocin
antagonist, intravenous infusion of glucose induced hyperglycaemia and after a delay increased the uterine contractile activity. This contractile effect of glucose was abolished by HOE 140. Infusion of insulin with glucose induced contractions of the uterus. These responses did not appear or were suppressed by HOE 140 or by soya bean trypsin inhibitor (SBTI), a plasma kallikrein inhibitor. These results are direct evidence that insulin induces a release of kinins.
...
PMID:Does insulin release kinins in rats? 1629 83
