Neuropeptide-induced contraction and relaxation of the mouse anococcygeus muscle.

Gibson, Alan; Bern, Howard A.; Ginsburg, M.; Botting, Jack Howard

doi:10.1073/pnas.81.2.625

Cited by 41 publications

(19 citation statements)

References 22 publications

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“…In agreement with these data, it has previously been reported that UII inhibits carbachol-induced contraction of the anococcygeous muscle (44) and that dbcAMP and forskolin counteract the contractile response evoked by UII in rat aortic strips (45). UII has also been shown to lower cytoplasmic free Ca 2þ concentration in goby enterocytes (46).…”

Section: Discussionsupporting

confidence: 79%

Urotensin-II is present in pancreatic extracts and inhibits insulin release in the perfused rat pancreas

Silvestre

Egido

Hernández

et al. 2004

European Journal of Endocrinology

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Objective: Previous work from our laboratory has demonstrated that frog urotensin-II (UII), at a high concentration, inhibits glucose-induced insulin release in the rat pancreas. We have investigated the effect of rat UII and two structural analogs on insulin secretion and searched for the presence of UII-immunoreactivity in rat pancreatic extracts. Methods: The study was performed in the perfused rat pancreas. UII as well as its analogs were synthesized by solid phase methodology. Pancreatic extracts were analyzed for UII by reversed-phase HPLC combined with a sensitive UII RIA. Results: Infusion of synthetic rat UII inhibited glucose-induced insulin release in a dose-dependent manner (IC 50 : 0.12 nmol/l). UII (1 nmol/l) also inhibited the insulin responses induced by carbachol, glucagon-like peptide-1, and a calcium channel agonist (BAY K 8644). The inhibitory effect of UII was mimicked by the potent G protein-coupled receptor (GPR14) agonist [3-iodo-Tyr 6 ]UII(4 -11). In contrast, [Ala 8 ]UII(4 -11), a UII analog devoid of contractile activity on rat aortic rings, did not affect glucose-induced insulin secretion. Analysis of rat pancreatic extracts revealed the presence of an immunoreactive peptide exhibiting the same retention time as synthetic rat UII.Conclusions: Our results demonstrate that UII is a potent insulinostatic peptide. The observation that UII is actually present in the pancreas suggests that this peptide may play a physiological role in the control of insulin secretion. Concerning the two UII analogs tested, only ]UII(4 -11), reportedly possessing GPR14-mediated contractile activity, mimics the insulinostatic effect of UII. This finding would support the view that UII acts on the pancreatic beta cell through the GPR14 receptor.European Journal of Endocrinology 151 803-809

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Section: Discussionsupporting

confidence: 79%

Urotensin-II is present in pancreatic extracts and inhibits insulin release in the perfused rat pancreas

Silvestre

Egido

Hernández

et al. 2004

European Journal of Endocrinology

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Section: Venous Vesselsmentioning

confidence: 99%

“…However, as discussed below, such a hypothesis is not supported by radioligand binding or functional studies performed in both native tissue and recombinant rat/human GPR14 cell lines e.g. non-murine U-II isopeptides are active in mouse non-vascular tissue (goby U-II in the mouse anococcygeus; Gibson et al, 1984), mouse U-II contracts rat aortae and functions as a high a nity ligand at both rat and human GPR14 (Douglas & Aiyar, unpublished observations).To illustrate further the di erences in reactivity between species, U-II was found to exhibit a`coronary-selective' vasoconstrictor pro®le in the dog. This contrasted the vasoconstrictor pro®le of human U-II in the pig where, once again, the spasmogenic pro®le was unique to this species.…”

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confidence: 99%

Differential vasoconstrictor activity of human urotensin‐II in vascular tissue isolated from the rat, mouse, dog, pig, marmoset and cynomolgus monkey

Douglas

Sulpizio

Piercy

et al. 2000

British J Pharmacology

212

177

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1 Urotensin-II (U-II) and its G-protein-coupled receptor, GPR14, are expressed within mammalian cardiac and peripheral vascular tissue and, as such, may regulate mammalian cardiovascular function. The present study details the vasoconstrictor pro®le of this cyclic undecapeptide in di erent vascular tissues isolated from a diverse range of mammalian species (rats, mice, dogs, pigs, marmosets and cynomolgus monkeys). 2 The vasoconstrictor activity of human U-II was dependent upon the anatomical origin of the vessel studied and the species from which it was isolated. In the rat, constrictor responses were most pronounced in thoracic aortae and carotid arteries: 7log[EC 50 ]s 9.09+0.19 and 8.84+0.21, R max s 143+21 and 67+26% 60 mM KCl, respectively (compared, for example, to 7log[EC 50 ] 7.90+0.11 and R max 142+12% 60 mM KCl for endothelin-1 [ET-1] in thoracic aortae). Responses were, however, absent in mice aortae (7log [EC 50 ] 56.50). These ®ndings were further contrasted by the observation that U-II was a`coronary-selective' spasmogen in the dog (7log [EC 50 ] 9.46+0.11, R max 109+23% 60 mM KCl in LCX coronary artery), yet exhibited a broad spectrum of vasoconstrictor activity in arterial tissue from Old World monkeys (7log [EC 50 ]s range from 8.96+0.15 to 9.92+0.13, R max s from 43+16 to 527+135% 60 mM KCl). Interestingly, signi®cant di erences in reproducibility and vasoconstrictor e cacy were seen in tissue from pigs and New World primates (vessels which responded to noradrenaline, phenylephrine, KCl or ET-1 consistently). 3 Thus, human U-II is a potent, e cacious vasoconstrictor of a variety of mammalian vascular tissues. Although signi®cant species/anatomical variations exist, the data support the hypothesis that U-II in¯uences the physiological regulation of mammalian cardiovascular function. British Journal of Pharmacology (2000) 131, 1262 ± 1274 Keywords: Urotensin-II; GPR14; SENR; endothelin-1; somatostatin; vascular reactivity; spasmogen; coronary artery; endothelium; vasoconstriction Abbreviations: FLIPR,¯uorescent imaging plate reader; GPCR, guanosine triphosphate-binding protein [G-protein]-coupled receptor; LAD coronary artery, left anterior descending coronary artery; LCX, left circum¯ex coronary artery; SENR, sensory epithelial neuropeptide-like receptor; U-II, Urotensin-II IntroductionThe integrated control of cardiovascular homeostasis is achieved through a combination of direct neuronal control and systemic activation of the neurohumoral axis. The principal mammalian vasoactive factors of this axis (angiotensin-II, endothelin [ET]-1, noradrenaline) exert their haemodynamic e ects exclusively via interactions with speci®c seven transmembrane heterotrimeric G-protein-coupled receptors (GPCRs). Drugs which antagonize such interactions constitute one of the most successful classes of therapeutic agents identi®ed to date (Stadel et al., 1997; Wilson et al., 1998). Nowhere is this more evident than within the vasculature where numerous agents have been developed successfully for the clinical ...

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“…However, early experiments were carried out with partially purified UII from extracts of fish urophysis; more recently, clear biological activity in mammals has been obtained with a synthetic UII (GUII), having the amino acid sequence of the peptide found in the long-jawed mudsucker, Gillichthys mirabilis (Pearson et al, 1980). An initial observation that GUII produced doserelated relaxations of the mouse anococcygeus muscle (Gibson et al, 1984) prompted further studies of possible actions in mammalian species. In anaesthetized rats, GUII both increased arterial pulse pressure and lowered mean arterial blood pressure (Gibson et al, 1986).…”

Section: Introductionmentioning

confidence: 99%

Complex effects of Gillichthys urotensin II on rat aortic strips

Gibson

1987

British J Pharmacology

103

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6LX1 The aim of this study was to determine whether the fish neuropeptide, Gillichthys urotensin II (GUII), possesses significant biological activity on rat aortic strips. 2 On intact strips, pre-contracted by noradrenaline (100 nM), low concentrations (0.1-0.5 nM) of GUII produced relaxations, while higher concentrations (1-10 nM) caused further contraction. On strips rubbed to remove endothelial cells, relaxations were absent but contractile responses to higher concentrations of GUII remained. 3 GUII (0.2-10nM) produced dose-related contractions of quiescent, intact aortic strips. These contractions consisted of two components, tonic and phasic, and were potentiated in rubbed strips and in the presence of the antioxidant drug hydroquinone (1O iM).4 Mepacrine (40 jM) and p-bromophenacyl bromide (50 gM) completely abolished contractions to GUII, but indomethacin (10 jM) and nordihydro-guaiaretic acid (1I0 M) were without effect. 5 The phasic, but not the tonic, component of the contractile response was inhibited by nitrendipine (200 nM), and was absent in bathing medium from which Ca2' had been omitted. Addition of EGTA (2 mM) to Ca2+-free bathing medium abolished the residual tonic component. 6 GUII-induced contractions were completely abolished by the calmodulin antagonists trifluoperazine (50 pM) and W-7 (30 gM).7 It is concluded that GUII, previously considered devoid of significant activity on mammalian tissues, produces potent endothelium-dependent relaxations and endothelium-independent contractions of rat aorta, and possible mechanisms underlying each response are discussed.

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Neuropeptide-induced contraction and relaxation of the mouse anococcygeus muscle.

Cited by 41 publications

References 22 publications

Urotensin-II is present in pancreatic extracts and inhibits insulin release in the perfused rat pancreas

Urotensin-II is present in pancreatic extracts and inhibits insulin release in the perfused rat pancreas

Differential vasoconstrictor activity of human urotensin‐II in vascular tissue isolated from the rat, mouse, dog, pig, marmoset and cynomolgus monkey

Complex effects of Gillichthys urotensin II on rat aortic strips

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