Enhanced Neuropeptide Y Immunoreactivity and Vasoconstriction in Mesenteric Small Arteries from Spontaneously Hypertensive Rats

Gradin, K.; Li, Jia Yi; Andersson, Ove; Simonsen, Ulf

doi:10.1159/000071889

Cited by 27 publications

(37 citation statements)

References 55 publications

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“…NPY that is stored in the vicinity of CGRP has been shown to enhance vasoconstrictor responses and to reduce vasodilator responses to stimulation of adenylyl cyclase (Doods et al, 2000;Gradin et al, 2003). Our observations with NPY during K ϩ -induced contraction and forskolin-induced relaxation are in line with these earlier findings.…”

Section: Efs (2 N Hzsupporting

confidence: 91%

“…It also Coalescence and functional antagonism of CGRP and NPY suggest that Y1 receptor blockade may be considered to enhance the efficacy of endogenous CGRP. In spontaneously hypertensive rats, which display an increased density of periarterial NPY-containing but not CGRP-containing nerves (Gradin et al, 2003;Luff et al, 2005), BIBP3226 does not lower blood pressure even during stress-induced stimulation of the sympathetic nervous system (Zhao et al, 1997). However, in this model BIBP3226 displays an age-dependent reducing effect on the enhanced neurogenic renovascular constriction (Vonend et al, 2005;Dubinion et al, 2006).…”

Section: Efs (2 N Hzmentioning

confidence: 86%

“…Our protocol was inspired by a previous study of Simonsen et al (Gradin et al, 2003). We used a high concentration of phenylephrine to cause contraction and to saturate the postjunctional ␣ 1 -adrenoceptors that play a major role in neurogenic vasoconstriction.…”

Section: Efs (2 N Hzmentioning

confidence: 99%

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Functional Antagonism between Endogenous Neuropeptide Y and Calcitonin Gene-Related Peptide in Mesenteric Resistance Arteries

Mey¹,

Megens²,

Fazzi³

2007

J Pharmacol Exp Ther

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To test the hypothesis that endogenous neuropeptide Y (NPY) counteracts the vasodilator effects of calcitonin gene-related peptide (CGRP), we used isolated mesenteric resistance arteries of rats and mice. With immunohistochemistry, we observed CGRP-containing fibers along and in the vicinity of a subset of NPY-or tyrosine hydroxylase-immunoreactive fibers. The CGRP1 receptor component calcitonin-related-like receptor was expressed by periarterial nerves and smooth muscle cells, whereas receptor activity-modifying protein 1 was observed primarily on the smooth muscle. In organ chambers, exogenous CGRP caused relaxations that were reversed by exogenous NPY. The effects were inhibited by 1-piperidinecarboxamide, N-[2-[[5-amino-1-[[4-(4-pyridinyl) NPY increased contractile responses to K ϩ and BIBP3226 (400 nM) reduced contractile responses to EFS. These effects were inhibited by capsaicin and BIBN4096BS, respectively. Furthermore, the relaxing effect of exogenous CGRP (10 nM) during phenylephrine-induced contraction (30 M) was reversed by EFS, and this effect was reduced in the presence of BIBP3226. We confirmed that bioactive concentrations of endogenous CGRP and NPY can be released from periarterial sensory-motor and sympathetic nerves, respectively, and we demonstrate for the first time functional antagonism between endogenous NPY and CGRP at the level of the smooth muscle.The potent 37-amino acid vasodilator calcitonin-gene related peptide (CGRP) can be released by perivascular sensory-motor nerves (for review, see Brain and Grant, 2004). CGRP contributes to cardiovascular homeostasis in the fetus (Thakor and Giussani, 2005) and to the cardiovascular adaptations to pregnancy (Yallampalli et al., 2002). It lowers blood pressure and reduces end-organ damage in several experimental models (Deng and Li, 2005;Supowit et al., 2005; Márquez-Rodas et al., 2006). In experimental hypertension, changes in the expression and effects of CGRP either contribute to the increase in blood pressure or they play a compensatory role (Wang and Wang, 2004;Deng and Li, 2005;Supowit et al., 2005; Márquez-Rodas et al., 2006). Interventions that increase the efficacy of the vasodilator effects of endogenous CGRP could thus be a welcome addition to antihypertensive therapy. Enzymatic breakdown of CGRP (Fernandez-Patron et al., 2000), the density of CGRP-containing nerve fibers (Kawasaki et al., 1999), and the expression of CGRP receptor components (Zhang et al., 2006) are subjects of ongoing research. We hypothesize that effects of CGRP are modulated by other neuropeptides.During development, afferent sensory-motor nerves and efferent postganglionic sympathetic nerves align with outgrowing arteries (for review, see Carmeliet and TessierLavigne, 2005). This suggests that depending on their sensiThis study was supported by grants from the Transnational University of Limburg and contract T2-108 from TIPharma (Leiden, The Netherlands), an initiative financed by the Dutch government that encourages collaborative pharmacological rese...

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Section: Efs (2 N Hzsupporting

confidence: 91%

Section: Efs (2 N Hzmentioning

confidence: 86%

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Functional Antagonism between Endogenous Neuropeptide Y and Calcitonin Gene-Related Peptide in Mesenteric Resistance Arteries

Mey¹,

Megens²,

Fazzi³

2007

J Pharmacol Exp Ther

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“…However, evidence has emerged recently suggesting a vasodilator role for the peptide in certain vascular beds both in vivo and in vitro models. Thus, NPY relaxes precontracted renal arteries of diabetic and nondiabetic rats (Torffvit & Edvinsson, 1997), human subcutaneous arteries and mesenteric small arteries (Gradin et al, 2003), and induces vasodilatation in cerebral arteries from different species (Kobari et al, 1993;You et al, 2001). In the present study, several results provide evidence for the existence of NPY vasodilator receptors.…”

Section: Discussionsupporting

confidence: 61%

Heterogeneity of the neuropeptide Y (NPY) contractile and relaxing receptors in horse penile small arteries

Prieto

Arcos

Martínez

et al. 2004

British J Pharmacology

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1 The distribution of neuropeptide Y (NPY)-immunorective nerves and the receptors involved in the effects of NPY upon electrical field stimulation (EFS)-and noradrenaline (NA)-elicited contractions were investigated in horse penile small arteries. 2 NPY-immunoreactive nerves were widely distributed in the erectile tissues with a particularly high density around penile intracavernous small arteries.

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“…26,27 Our Western blot analysis showed decreased levels of NPY at sites of MI and at sites distant from MI in the RDN group. The neurotransmitter NPY, a marker of sympathetic activity, has been demonstrated to be decreased after RDN.…”

Section: Presence Of Cardiac Sympathetic Nerves and Npymentioning

confidence: 66%

Effects of Renal Artery Denervation on Ventricular Arrhythmias in a Postinfarct Model

Jackson

Gizurarson

Azam

et al. 2017

Circ: Cardiovascular Interventions

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T he therapeutic potential of renal denervation (RDN) for cardiac arrhythmias was previously explored, yielding case reports and small case series that suggested RDN may be an effective adjunctive treatment in addition to medication and cardiac ablation for patients with ventricular tachycardia (VT) storm and atrial fibrillation.1-5 These promising results call for large-scale, well-controlled trials and detailed mechanistic evaluations. However, findings of the SYMPLICITY HTN-3 study (Renal Denervation in Patients With Uncontrolled Hypertension) have raised grave concerns over the benefits from RDN therapy for hypertension. 4 Hence, although RDN-based treatments are being developed for arrhythmias, it is important to reassess and confirm the antiarrhythmic potential of RDN in experiments designed to clearly demonstrate the impacts on cardiac electrophysiology. More importantly, the mechanistic basis of any antiarrhythmic effects should also be determined. See Editorial by Koruth and DukkipatiRDN has been shown to attenuate elevations in left ventricular end-diastolic pressure, suppress spontaneous premature beats, and reduce the incidence of ventricular fibrillation (VF) immediately post-acute coronary occlusion in pigs.6 RDN was also shown to reduce the incidence of ventricular arrhythmias (VAs) immediately after coronary occlusion in a similar acute canine model, in which RDN prolonged the ventricular effective refractory period (ERP) and the ventricular action potential duration, as well as decreased action potential duration dispersion. Although RDN is known to reduce renal sympathetic activity Background-The therapeutic potential of renal denervation (RDN) for arrhythmias has not been fully explored. Detailed mechanistic evaluation is in order. The objective of the present study was to determine the antiarrhythmic potential of RDN in a postinfarct animal model and to determine whether any benefits relate to RDN-induced reduction of sympathetic effectors on the myocardium. Methods and Results-Pigs implanted with single-chamber implantable cardioverter defibrillators to record ventricular arrhythmias (VAs) were subjected to percutaneous coronary occlusion to induce myocardial infarction. Two weeks later, a sham or real RDN treatment was performed bilaterally using the St Jude EnligHTN basket catheter. Parameters of ventricular remodeling and modulation of cardio-renal sympathetic axis were monitored for 3 weeks after myocardial infarction. Histological analysis of renal arteries yielded a mean neurofilament score of healthy nerves that was significantly lower in the real RDN group than in sham controls; damaged nerves were found only in the real RDN group. There was a 100% reduction in the rate of spontaneous VAs after real RDN and a 75% increase in the rate of spontaneous VAs after sham RDN (P=0.03). In the infarcted myocardium, presence of sympathetic nerves and tissue abundance of neuropeptide-Y, an indicator of sympathetic nerve activities, were significantly lower in the RDN group. Peak and mean sinus t...

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Enhanced Neuropeptide Y Immunoreactivity and Vasoconstriction in Mesenteric Small Arteries from Spontaneously Hypertensive Rats

Cited by 27 publications

References 55 publications

Functional Antagonism between Endogenous Neuropeptide Y and Calcitonin Gene-Related Peptide in Mesenteric Resistance Arteries

Functional Antagonism between Endogenous Neuropeptide Y and Calcitonin Gene-Related Peptide in Mesenteric Resistance Arteries

Heterogeneity of the neuropeptide Y (NPY) contractile and relaxing receptors in horse penile small arteries

Effects of Renal Artery Denervation on Ventricular Arrhythmias in a Postinfarct Model

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