CNP, but not ANP or BNP, relax human isolated subcutaneous resistance arteries by an action involving cyclic GMP and BKCa channels.

Natriuretic peptides play an important role in sodium regulation and blood pressure (BP) control. We examined the effects of atrial natriuetic peptide (ANP), brain natriuretic peptide (BNP) and C-type natriuretic peptide (CNP) on human isolated resistance arteries and the mechanisms involved in vasorelaxation. Human subcutaneous resistance arteries were mounted in an isometric myograph and contracted with phenylephrine. CNP, but not ANP or BNP, relaxed arteries in a concentration dependent manner. The action of CNP was unaffected by removal of the endothelium, inhibition of nitric oxide synthase by NG-monomethyl-Larginine or inhibition of soluble guanylate cyclase by 1H-[1,2,4] oxadiazolo [4,3-alpha] quinoxalin-1-one. Blockade of cyclic GMPdependent kinase by 8- bromoguanosine- 3, 5- cyclic monophosphorothioate, Rp-isomer (Rp-8-Br-cGMPS) inhibited CNP relaxation. CNP relaxation was also inhibited by high potassium or iberiotoxin, indicating that it was due to opening of BKCa channels. Omapatrilat, a vasopeptidase inhibitor of neutral endopeptidase and angiotensin-converting enzyme, enhanced the effect of CNP and inhibited responses to Ang I. In summary, CNP, but not ANP or BNP, relaxes human resistance arteries by activating cyclic GMP-dependent kinase and BKCa. The effects of CNP are enhanced by vasopeptidase inhibition and this may contribute to the vasodilator effects of these agents in vivo. Since CNP is widely present in endothelium it may play a role in the regulation of peripheral resistance in man in physiological and pathological circumstances.     

Vasodilator effects of KRN2391, levcromakalim and 3-morpholino-sydnonimin in human pial and omental arteries

The vasodilator action of KRN2391 (10 nM-10 microM), a combined ATP-sensitive potassium channel (KATP) opener and organic nitrate, was investigated in human pial and omental arteries. Previous animal studies have suggested that opening of KATP and activation of guanylate cyclase may contribute to varying extents to the vasodilator action of KRN2391, depending on the origin and size of the vascular preparation. Vasodilator responses were studied in isolated vascular segments (diameter 0.4-0.8 mm) pre-contracted with endothelin-1 in the presence or absence of glibenclamide (inhibitor of KATP), LY83583 (inhibitor of guanylate cyclase), zaprinast (inhibitor of cyclic GMP phosphodiesterase V) and NG-nitro-L-arginine (inhibitor of nitric oxide synthase). KRN2391 induced concentration-dependent vasodilator responses of similar potency in arteries from the two vascular regions. While glibenclamide (1 microM) had no effect in omental arteries, this compound produced a tenfold rightwards shift of the concentration-response curve for KRN2391 in pial arteries without affecting the maximal response (Emax). LY83583 (10 microM), zaprinast (10 microM) and NG-nitro-L-arginine (0.1 mM) all failed to affect the vasodilator responses to KRN2391 significantly in either artery. However, in ring segments of rat aorta LY83583 displaced the concentration-response curve for the nitric oxide donor 3-morpholino-sydnonimin (10 nM-0.1 mM) to the right, while zaprinast produced a leftwards shift. The prototype KATP opener levcromakalim (0.01-10 microM) elicited a larger relaxation in pial (Emax 80+/-6%) than in omental (Emax 47+/-13%) arteries, whereas 3-morpholino-sydnonimin produced a smaller relaxation in pial (Emax 50+/-18%) than in omental (Emax 90+/-4%) arteries. These results suggest that the vasodilator response to KRN2391 is mediated by KATP in human cerebral arteries, but dependent on neither KATP nor guanylate cyclase in human omental arteries. The results with levcromakalim and 3-morpholino-sydnonimin indicate that opening of KATP may be a more effective mechanism of vasodilatation in pial than in omental arteries from man, whereas the reverse appears to be true for guanylate cyclase activation.     

Contractile response of human omental arteries to endothelin.

The effects of endothelin have been studied in isolated arterial segments (0.8-1 mm in external diam.) of human omental arteries obtained during the course of abdominal operations (15 patients, 7 men and 8 women). Paired segments, one normal and the other de-endothelized, were mounted for isometric recording of tension in organ baths. Endothelin produced concentration-dependent contractions with an EC50 value of 5.4 x 10(-9) M. Removal of endothelium did not affect significantly endothelin-induced contractions (EC50, 6.7 x 10(-9) M). Removal of extracellular calcium or addition of the calcium channel blocker nicardipine (10(-6) M) diminished but did not abolish responses to endothelin. These results indicate that endothelin exerts powerful contractile effects on human isolated omental arteries which are independent of the presence of an intact endothelial cell layer; this contraction cannot be explained solely by voltage-dependent calcium channels.     

The effects of adenosine triphosphate (ATP) and related purines on human isolated subcutaneous and omental resistance arteries.

1. Human resistance arteries were obtained from specimens of omentum and subcutaneous fat removed at surgery. They were studied in vitro by use of a myograph technique to determine the effects of purines on the arteries. 2. In preparations where tone had been raised with noradrenaline, low concentrations (1 nM-1 microM) of adenosine triphosphate (ATP) and 2-methylthioATP, but not alpha,beta-methyleneATP, produced concentration-dependent relaxation. There was a lack of relationship between the relaxation response to acetylcholine and that to ATP. 3. In preparations under basal tone, high concentrations (1 microM-1 mM) of ATP, 2-methylthioATP and alpha,beta-methyleneATP produced concentration-dependent contractions. 4. The rank order of potency of the purine nucleotide analogues for the relaxation response was 2-methylthioATP > ATP > alpha,beta-methyleneATP and for the contractile response it was alpha,beta-methyleneATP > ATP = 2-methylthioATP. 5. Adenosine produced concentration-dependent relaxation in preparations under raised tone and was less potent than ATP but did not produce contraction in preparations at basal tone. Relaxation responses to adenosine, but not to ATP, were antagonized by 8-phenyltheophylline. 6. These results indicate the presence of vasodilator P2y- and P1-purinoceptors and vasoconstrictor P2x-purinoceptors on human resistance arteries isolated from omental and subcutaneous sites.     

Postjunctional alpha 2-adrenoceptors mediate vasoconstriction in human subcutaneous resistance vessels

1. In vitro studies have been performed on human medium-sized muscular arteries (internal diameter 1-4 mm) in a classical organ bath and with human subcutaneous resistance arteries (internal diameter 103-626 microns) in a microvascular myograph. 2. Although the medium-sized muscular arteries showed no response to either of the alpha 2-agonists B-HT 933 or UK 14304 in concentrations up to 10 microM, the subcutaneous resistance arteries from all regions examined showed well-pronounced and concentration-dependent responses to B-HT 933, the pD2 (-log EC50) being 5.11 +/- 0.09. 3. In the resistance arteries the alpha 2-antagonist yohimbine caused a parallel shift to the right of the B-HT 933 concentration-response curve; the yohimbine pA2 for the B-HT 933 receptor was 7.86 +/- 0.12. 4. There was an inverse relationship between the maximum response to B-HT 933 and the calibre of the resistance vessels. 5. These results indicate the presence of a postjunctional alpha 2-adrenoceptor in human subcutaneous resistance arteries and not in medium sized muscular arteries.     

Vasorelaxant properties of norbormide, a selective vasoconstrictor agent for the rat microvasculature.

1. The effects of norbormide on the contractility of endothelium-deprived rat, guinea-pig, mouse, and human artery rings, and of freshly isolated smooth muscle cells of rat caudal artery were investigated. In addition, the effect of norbormide on intracellular calcium levels of A7r5 cells was evaluated. 2. In resting rat mesenteric, renal, and caudal arteries, norbormide (0.5-50 microM) induced a concentration-dependent contractile effect. In rat caudal artery, the contraction was very slowly reversible on washing, completely abolished in the absence of extracellular calcium, and antagonized by high concentrations (10-800 microM) of verapamil. The norbormide effect persisted upon removal of either extracellular Na+ or K+. The contractile effect of norbormide was observed also in single, freshly isolated smooth muscle cells from rat caudal artery. 3. In resting rat and guinea-pig aortae, guinea-pig mesenteric artery, mouse caudal artery, and human subcutaneous resistance arteries, norbormide did not induce contraction. When these vessels were contracted by 80 mM KCl, norbormide (10-100 microM) caused relaxation. Norbormide inhibited the response to Ca2+ of rat aorta incubated in 80 mM KCl/Ca2(+)-free medium. Norbormide (up to 100 microM) was ineffective in phenylephrine-contracted guinea-pig and rat aorta. 4. In A7r5 cells, a cell line from rat aorta, norbormide prevented high K(+)- but not 5-hydroxytryptamine-induced intracellular calcium transients. 5. These findings indicate that in vitro, norbormide induces a myogenic contraction, selective for the rat small vessels, by promoting calcium entry in smooth muscle cells, presumably through calcium channels. In rat aorta and arteries from other mammals, norbormide behaves like a calcium channel entry blocker.     

Actions of calcium antagonists on pre- and postjunctional effects of neuropeptide Y on human peripheral blood vessels in vitro

The mechanisms underlying the contractile effects of neuropeptide Y (NPY) in relation to those of noradrenaline (NA) on small human blood vessels were studied in vitro. NPY caused contractions of mesenteric veins, renal and skeletal muscle arteries but not of mesenteric arteries. NPY was about 5- to 10-fold more potent than NA. The maximal contractile responses to NPY (5 X 10(-7) M) were 38 +/- 4, 37 +/- 8 and 95 +/- 16% of the response evoked by NA 10(-5) M in the mesenteric vein, renal and skeletal muscle arteries respectively. The NPY effects were resistant to adrenoceptor antagonists. The calcium antagonist nifedipine reduced the effect of NA but not the contractile response to NPY on mesenteric veins. Nifedipine and felodipine reduced the contractile response to both NA and NPY on renal and skeletal muscle arteries. In contrast to the contractile effects of K+, the responses to NPY and NA were largely uninfluenced by changes in extracellular Ca2+ concentrations. Nifedipine still inhibited the NPY contractions in a Ca2+-free medium while high extracellular Ca2+ (7.5 mM) partly reduced the nifedipine effect. NPY reduced the nerve stimulation-evoked [3H]NA overflow from the mesenteric veins via a nifedipine resistant mechanism. The stable analogue alpha, beta-methylene adenosine triphosphate (mATP) was more potent than ATP and had nifedipine-sensitive contractile effects similar to those of NA on the human blood vessels without influencing the nerve-evoked [3H]NA efflux. In conclusion, NPY exerts a potent nifedipine-sensitive vasoconstrictor activity, especially on human skeletal muscle arteries in vitro, although the influx of extracellular calcium may not be a crucial mechanism. The NPY-induced contractions of mesenteric veins and the inhibition of nerve-evoked [3H]NA efflux seem to be mediated via nifedipine resistant messenger systems.     

Characterization of changes in mechanical responses to histamine in omental resistance arteries in pre-eclampsia

Changes in the effect of histamine on the smooth muscle of resistance arteries in pre-eclampsia were investigated by measuring isometric contractions in endothelium-denuded strips of omental resistance arteries from pre-eclamptic and normotensive pregnant women (pregnancy-term matched). Histamine (0.03 -1 microM) caused concentration-dependent relaxation of the contraction induced by 9, 11-epithio-11,12-methano-thromboxane A(2) (STA(2)) in strips from both groups. Sensitivity (for pre-eclampsia: pD(2)=6.66+/-0.04, n=5 and for normotensive pregnant women: pD(2)=7.07+/-0.03, n=10, P<0.001) was lower and the maximum response (90.6+/-0.6% vs 95.5+/-1.1%, P<0.05) was smaller in strips from pre-eclamptic women. Although 8-bromoadenosine-3', 5'-cyclic monophosphorothioate (Sp-isomer: Sp-8-Br-cAMPS, 0.1 - 0.3 mM), a phosphodiesterase (PDE)-resistant activator of adenosine-3',5'-cyclic monophosphate (cyclic AMP)-dependent protein kinase, concentration-dependently attenuated the contraction induced by STA(2) in strips from both groups, the sensitivity (for pre-eclampsia: pD(2)=3.68+/-0.04, n=5 and for normotensive pregnant women: 3.94+/-0.09, n=7, P:=0.02) was lower and the maximum response (64.2+/-2.4% vs 74.9+/-4.4%, P:<0.05) was smaller in pre-eclampsia. In beta-escin-skinned strips, the pD(2) value for the contraction-inducing effect of Ca(2+) did not differ significantly between the two groups (for pre-eclampsia, n=6; for normotensive pregnant women, n=6). Thus, omental resistance arteries from human subjects with pre-eclampsia showed (i) a weaker H(2)-receptor-mediated relaxation to histamine and (ii) a weaker cyclic AMP-analogue-induced relaxation, suggesting that the reduced action of histamine may be partly due to a decreased effect of cyclic AMP.     

Functional characterization of alpha(1)-adrenoceptor subtypes in human skeletal muscle resistance arteries.

alpha(1)-adrenoceptor subtypes in human skeletal muscle resistance arteries were characterized using agonists noradrenaline (non-selective) and A61603 (alpha(1A)-selective), the antagonists prazosin (non-selective), 5-methyl-urapidil (alpha(1A)-selective) and BMY7378 (alpha(1D)-selective) and the alkylating agent chloroethylclonidine (preferential for alpha(1B)). Small arteries were obtained from the non-ischaemic skeletal muscle of limbs amputated for critical limb ischaemia and isometric tension recorded using wire myography. Prazosin antagonized responses to noradrenaline with a pA(2) value of 9.18, consistent with the presence of alpha(1)-adrenoceptors, although the Schild slope (1.32) was significantly different from unity. 5-Methyl-urapidil competitively antagonized responses to noradrenaline with a pK(B) value of 8.48 and a Schild slope of 0.99, consistent with the presence of alpha(1A)-adrenoceptors. In the presence of 300 nM 5-methyl-urapidil, noradrenaline exhibited biphasic concentration response curves, indicating the presence of a minor population of a 5-methyl-urapidil-resistant subtype. Contractile responses to noradrenaline were not affected by 1 microM chloroethylclonidine suggesting the absence of alpha(1B)-adrenoceptors. Maximum responses to noradrenaline and A61603 were reduced to a similar extent by 10 microM chloroethylclonidine, suggesting an effect of chloroethylclonidine at alpha(1A)-adrenoceptors at the higher concentration. BMY7378 (10 and 100 nM) had no effect on responses to noradrenaline. BMY7378 (1 microM) poorly shifted the potency of noradrenaline giving a pA(2) of 6.52. These results rule out the presence of the alpha(1D)-subtype. These results show that contractile responses to noradrenaline in human skeletal muscle resistance arteries are predominantly mediated by the alpha(1A)-adrenoceptor subtype with a minor population of an unknown alpha(1)-adrenoceptor subtype.     

Effect of endopeptidase-24.11 inhibitors and C-ANP receptor ligand on responses evoked in arterioles of rat cremaster muscle by atrial natriuretic peptide.

1. The present study examined the effect of exogenous atrial natriuretric peptide (ANP), alone or in presence of inhibitors of the two major mechanisms for clearing ANP, metabolism by neutral endopeptidase-24.11 (NEP) and internalization by C-ANP receptors, on arteriolar responses using intravital microscopy on the rat cremaster muscle after intravenous or topical administration of the peptide. 2. Topical application of ANP (3 x 10(-10) to 3 x 10(-8) M) produced a gradual increase in arteriolar diameter. NEP inhibitors, thiorphan (30 mg kg-1, i.v.), kelatorphan (10 mg kg-1, i.v.) and retrothiorphan (25 mg kg-1, i.v.) alone, did not significantly affect vascular tone but caused significant potentiation of the arteriolar responses to topically applied ANP. 3. When given as an i.v. bolus, ANP dilates skeletal arterioles at a high dose (20 micrograms kg-1). At a lower dose (10 micrograms kg-2), ANP alone or with retrothiorphan or the C-ANP receptor ligand C-ANP (4-23) did not produce any arteriolar responses, while after the combined administration of the two inhibitors, an increase in arteriolar diameter was induced. 4. These results indicate that low doses of topically applied ANP dilate rat cremaster arterioles and that the vasodilator responses can be potentiated by NEP inhibition. When given as an i.v. bolus, a high dose of ANP can also dilate skeletal arterioles. However at a lower dose the rapid metabolism of the peptide prevents it from producing its action.     

NO and KATP channels underlie endotoxin-induced smooth muscle hyperpolarization in rat mesenteric resistance arteries

1 Smooth muscle membrane potential and tension measurements were made in isolated mesenteric resistance arteries from rats exposed to bacterial endotoxin (lipopolysaccharide, LPS; 10 mg kg(-1), i.p.) for 3 h to mimic septic shock syndrome. 2 Over this period, rats developed an endotoxaemic response, assessed in vivo as a 41+/-4 mmHg drop in mean blood pressure, vascular hyporeactivity to noradrenaline (1 microg kg(-1), i.v.) and a significant increase in core body temperature. 3 In mesenteric small resistance arteries from these rats (o.d. 180 - 240 microm), phenylephrine (0.01-3 microm)-evoked contraction was not altered when compared with arteries from sham-operated animals, but the concentration-relaxation curve to acetylcholine (ACh; 0.01 - 3 microm) displayed a small, but significant, shift to the right. 4 The smooth muscle resting membrane potential (-70.3+/-1.6 mV) in arteries from LPS-treated rats was significantly greater than in control arteries (-55.4+/-1.2 mV), but in both cases the smooth muscle was depolarized to a similar potential by the application of N(omega)-nitro-L-arginine methyl ester (L-NAME; 0.3 mm; -54.1+/-2.3 vs -52.4+/-2.5 mV) or glibenclamide (10 microm; -55.0+/-2.1 vs -50.4+/-2.0 mV). 5 ACh (1 microm) elicited a maximal hyperpolarization, which ranged from -14.7+/-3.2 mV (in arteries from LPS-treated rats) to -20.6+/-2.4 mV (in arteries from sham-operated rats), and was not altered by the presence of L-NAME. Levcromakalim (1 microm) increased the smooth muscle membrane potential by around -24 mV in arteries from both sets of experimental animals. 6 These results indicate that at the level of the resistance vasculature, endotoxaemia is associated with pronounced smooth muscle hyperpolarization reflecting the action of NO on KATP channels. These changes were not associated with vascular hyporeactivity or depressed endothelial cell function in vitro, suggesting that mesenteric resistance arteries may not contribute to equivalent changes in vivo.     

Modified histamine-induced NO-mediated relaxation in resistance arteries in pre-eclampsia

We investigated the characteristic changes in histamine-induced, endothelium-derived nitric oxide (NO)-mediated relaxation in human omental resistance arteries seen in pre-eclampsia. Isometric contraction was provoked by a stable analogue of thromboxane A(2) in endothelium-intact strips from both pre-eclamptic and normotensive pregnant women. Histamine (0.3 nM-10 microM) produced a concentration-dependent relaxation of this contraction in both groups. The magnitude of the relaxation induced by histamine (1 microM) was significantly smaller in pre-eclampsia both in the presence and absence of famotidine (H(2)-receptor blocker). In the presence of famotidine, L-N(G)-nitroarginine significantly attenuated the histamine-induced relaxation in strips from normotensive pregnant women but not in those from pre-eclamptic women. The relaxation induced by human atrial natriuretic peptide (0. 1 nM-1 microM) was also significantly smaller in the pre-eclamptic group. It is concluded that the histamine-induced, endothelium-derived NO-mediated relaxation (mediated via H(1)-receptors) is down-regulated in resistance arteries in pre-eclampsia and we suggest that this is due, at least in part, to an attenuation of the action of cyclic GMP in smooth muscle cells.     

Effect of the CGRP receptor antagonist BIBN4096BS in human cerebral, coronary and omental arteries and in SK-N-MC cells.

Several lines of evidence suggest that a calcitonin-gene related peptide (CGRP) receptor antagonist may serve as a novel abortive migraine treatment. Here we present data on a human cell line and isolated human vessels for such an antagonist, BIBN4096BS. On SK-N-MC membranes, radiolabelled CGRP was displaced by both CGRP-(8-37) and BIBN4096BS, yielding pK(i) values of 8.5 and 11.4, respectively. Functional studies with SK-N-MC cells demonstrated that CGRP-induced cAMP production was antagonised by both CGRP-(8-37) and BIBN4096BS with pA(2) values of 7.8 and 11.2, respectively. Isolated human cerebral, coronary, and omental arteries were studied with a sensitive myograph technique. CGRP induced a concentration-dependent relaxation that was antagonized by both CGRP-(8-37) and BIBN4096BS in a competitive manner. CGRP was a weaker agonist on coronary arteries as compared to intracranial arteries; however, BIBN4096BS was an equally effective antagonist. In human omental arteries, CGRP did not induce relaxation. BIBN4096 had a pA(2) value of 10.1 in cerebral and 10.4 in coronary arteries. The results of clinical trials with BIBN4096BS for acute migraine attacks are awaited with great interest.     

Orphan-receptor ligand human urotensin II: receptor localization in human tissues and comparison of vasoconstrictor responses with endothelin-1

We have determined the distribution of receptors for human urotensin-II (U-II) in human and rat CNS and peripheral tissues. In rat, [(125)I]-U-II binding density was highest in the abducens nucleus of brainstem (139.6+/-14 amol mm(-2)). Moderate levels were detected in dorsal horn of spinal cord and lower levels in aorta (22. 5+/-6 amol mm(-2)). In human tissues density was highest in skeletal muscle and cerebral cortex ( approximately 30 amol mm(-2)), with lower levels (<15 amol mm(-2)) in kidney cortex and left ventricle. Little binding was identified in atria, conducting system of the heart and lung parenchyma. Receptor density was less in human coronary artery smooth muscle (14.6+/-3 amol mm(-2), n=10) than rat aorta with no significant difference between normal and atherosclerotic vessels. In human skeletal muscle [(125)I]-U-II bound to a single receptor population with K(D)=0.24+/-0.17 nM and B(max)=1.97+/-1.1 fmol mg(-1) protein (n=4). U-II contracted human coronary, mammary and radial arteries, saphenous and umbilical veins with sub-nanomolar EC(50) values. U-II was 50 times more potent in arteries and <10 times more potent in veins than endothelin-1 (ET-1). The maximum response to U-II ( approximately 20% of control KCl) was significantly less than to ET-1 ( approximately 80% KCl). In contrast, in rat aorta, U-II and ET-1 were equipotent with similar maximum responses. This is the first report of high affinity receptors for [(125)I]-U-II in human CNS and peripheral tissues. This peptide produces potent, low efficacy, vasoconstriction in human arteries and veins. These data suggest a potential role for U-II in human physiology.     

Evidence for a functional beta 3-adrenoceptor in man.

1. The existence of a functional beta 3-adrenoceptor in man was investigated by studying the lipolytic action of selective beta-adrenoceptor agents in isolated white omental and subcutaneous fat cells. 2. The non-selective beta 1/beta 2-adrenoceptor antagonist, CGP 12177 was lipolytic in both omental and subcutaneous fat cells. The intrinsic activity relative to isoprenaline was greater in omental than in subcutaneous cells. 3. Addition of the beta 2-adrenoceptor antagonist, ICI 118,551 and the beta 1-adrenoceptor antagonist CGP 20712A in combination or the non-selective beta-adrenoceptor antagonist propranolol alone (all 10(-7) M), induced a rightward shift of the dose-response curves for isoprenaline- and BRL37344-stimulated lipolysis of about 4 and 2 log-units, respectively. However, the antagonists did not alter lipolysis induced by CGP12177. 4. Several concentrations of beta-adrenoceptor antagonists were used to determine the pA2 values by Schild analysis. The values for CGP 20712A and ICI 118,551 (6.63 +/- 0.20 and 6.25 +/- 0.12) as antagonists of the lipolytic effects of CGP 12177 were over 2 units lower than the pA2 value for CGP 20712A against the response to the selective beta 1-agonist dobutamine (8.58 +/- 0.23) and the pA2 value for ICI 118,551 against the response to the selective beta 2-agonist terbutaline (9.15 +/- 0.26). 5. beta 3-Adrenoceptor mRNA expression, investigated with a polymerase chain reaction assay, was demonstrated in both types of adipocytes in the same cell preparations that had a lipolytic response to CGP 12177. 6. In conclusion, human white fat cells express an atypical beta-adrenoceptor in addition to beta 1- and beta 2-adrenoceptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of phosphorothioated neuropeptide Y Y1-receptor antisense oligodeoxynucleotide in conscious rats and in human vessels.

1. Metabolically stabilized (phosphorothioate) human and rat NPY Y1 receptor oligodeoxynucleotides (ODNs) complimentary to the rat or human Y1 mRNA were synthesized; [sense (rY1-SODN, 5'-AATTCAACTCTGTTCTCC-3'), antisense (hY1-ASODN, 5'-CCTGGGAAAATAATGTTG-3' and rY1-ASODN, 5'-GGAGAACAGAGTTGAATT-3') and mismatches (hY1-MMODN, 5'-CCTGAGATAA-TAAGGTTG-3' and rY1-MM 5'-GTAGATCAGAGATGAAGT-3')] and used to modulate cardiovascular function in vitro in human vessels as well as in vivo in the rat. 2. The objectives of the experiments were to assess the influence of the NPY Y1 receptor on vasomotor function human resistance arteries in vitro and to investigate the contribution of the NPY receptor system to cardiovascular haemodynamics in vivo. 3. Human subcutaneous resistance arteries removed from patients who underwent surgery for nonvascular diseases were incubated in vitro with the stabilized phosphorothioated hY1-receptor ASODN or MMODN (10(-7) TO 10(-5) M). 4. In human resistance vessels preincubated with hY1-AS (10(-7) to 10(-5) M), the contractile response to NPY was significantly reduced in a dose-dependent fashion. No effects were observed in the hY1-MMODN-incubated vessels at lower concentrations (10(-7) M to 10(-6) M). 5.The haemodynamic effects of the phosphorothioated rY1-ASODN, SODN or MMODN were investigated in conscious rats during 48 h of continuous infusions. The continuous infusion with rY1-ASODN did not change MAP while the rY1-SODN unexpectedly induced an early (10-20) increase in ambulatory MAP and the rY1-MMODN a late (24-44 h) increase. 6. Contractile responses to NPY (2, 4, 8, 16 and 32 micrograms kg-1) were significantly reduced in the rats treated with long-term infusion of rY1-ASODN (2.1 mg kg-1 h-1, i.v. infusion for 48 h) compared with animals treated with rY1-SODN and MMODN, as well as animals treated with saline and glucose. Notably, the group infused with the rY1-SODN showed an exaggerated response to tested doses of NPY. 7. We conclude that the incubation of human subcutaneous arteries with a metabolically stabilized 18 base pair hY1-ASODN and long-term infusion with a corresponding rY1-ASODN attenuate NPY-induced vasoconstriction.     

Effects of atrial natriuretic peptide and nitroprusside on isolated pulmonary resistance and conduit arteries from rats with pulmonary hypertension.

1. The relaxant effects of atrial natriuretic peptide (ANP) and nitroprusside were studied on prostaglandin F2 alpha (PGF2 alpha)-contracted preparations of pulmonary resistance vessels (internal diameter 200-500 microns) and main pulmonary arteries taken from rats with pulmonary hypertension induced by monocrotaline (105 mg kg-1, s.c., 4 weeks previously). Control rats received saline. 2. In preparations from monocrotaline-treated rats, the potencies (negative log EC50) of ANP on resistance vessels (8.45) and main pulmonary arteries (8.25) were similar to those obtained in vessels from control rats (8.78 and 8.53 respectively), whereas those of nitroprusside were significantly less than in controls in both resistance vessels (7.13 compared with 7.63 in controls; three fold decrease in potency) and main pulmonary arteries (6.92 compared with 8.17 in controls; 18 fold decrease in potency). 3. On pulmonary resistance vessels from monocrotaline-treated rats, the maximum relaxant responses to ANP and nitroprusside, and also to pinacidil, were increased compared with controls, and reversal of the PGF2 alpha-induced contraction by these drugs was greater than 100%. In contrast, on main pulmonary arteries from monocrotaline-treated rats, the maximum relaxations to ANP and nitroprusside were not increased relative to controls, and reversal of PGF2 alpha was not greater than 100%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of atrial and brain natriuretic peptides on lysophosphatidylcholine-mediated endothelial dysfunction

Lysophosphatidylcholine (LPC), a major atherogenic lysophospholipid contained in oxidized low-density lipoprotein (ox-LDL), induces endothelial dysfunction. Recent studies showed that natriuretic peptides (NPs) have antiatherogenic properties by inhibiting vascular smooth-muscle cell proliferation, but their effects on endothelial cells are little known. We examined whether atrial and brain NPs (ANP and BNP) have a protecting action against LPC-induced endothelial dysfunction. LPC (10 microM) significantly inhibited thrombin (0.001-1 U/ml)-induced endothelium-dependent relaxation without affecting endothelium-independent relaxation to sodium nitroprusside in isolated porcine coronary arteries. The impaired endothelium-dependent relaxation induced by LPC was prevented by treatment with ANP or BNP (i microM). In cultured bovine aortic endothelial cells (BAECs), LPC (10 microM) significantly attenuated bradykinin (1 microM)-stimulated nitric oxide (NO) release; however, this was prevented by ANP and BNP. Because LPC-induced endothelial dysfunction has been shown to be mediated at least in part by activation of the protein kinase C (PKC)-dependent signaling pathway, we also examined the effects of ANP and BNP on LPC-induced modulation of PKC activities in BAECs. LPC (10 microM) significantly stimulated PKC activity in BAECs. However, ANP or BNP significantly inhibited LPC (10 microM)-induced PKC activation. In conclusion, ANP and BNP protected endothelial cells from LPC-induced dysfunction in both isolated coronary arteries and cultured ECs. The mechanism appears to be at least in part related to the inhibition of LPC-induced PKC activation by NPs. These new actions of ANP and BNP against lysolipid-induced endothelial cytotoxicity may partly account for antiatherogenic properties of NPs.