Differential effects of the antianginal drug nicorandil on canine arteries and veins.

Nicorandil, a potent coronary vasorelaxant used in the treatment of angina, has differential effects on arteries and veins in vivo. To explain this phenomenon, experiments were designed to characterize the relaxant and inhibitory actions of this compound on canine isolated arteries and veins. Paired rings of canine coronary, femoral, and saphenous arteries and saphenous veins were suspended at optimal length for isometric tension recording in organ chambers containing physiologic salt solution at 37 degrees C and gassed with 95% O2-5% CO2. In certain experiments, one ring of each pair was denuded of the endothelium. Removal of the endothelium did not affect nicorandil-induced relaxations of contracted blood vessels. Nicorandil exerted a differential relaxant effect on arteries and veins contracted with KCl (order of potency: saphenous vein greater than coronary artery greater than femoral artery). No difference in sensitivity to nicorandil was observed in arteries and veins contracted with prostaglandin F2 alpha. Contractions of saphenous arteries and veins to norepinephrine (NE) were equally sensitive to the inhibitory action of nicorandil. However, contractions of saphenous veins induced by sympathetic nerve stimulation were more sensitive to nicorandil than were contractions of saphenous arteries. Furthermore, nicorandil did not affect contractions to phenylephrine in saphenous veins, although contractions to B-HT 920 were virtually abolished by the compound. Saphenous veins contracted with St 587 were more sensitive to the relaxant action of nicorandil than when contracted with phenylephrine. These results suggest that nicorandil inhibits preferentially contractions of canine arteries and veins mediated by alpha 2- rather than alpha 1-adrenoceptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Modifications of canine vascular smooth muscle responses to dihydroergotamine by endogenous prostaglandin synthesis.

Changes in tension were monitored isometrically on spiral strips from canine saphenous veins and arteries. Dihydroergotamine (DHE) (1.7 X 10(-8) M) contracted vein strips about 30% more strongly than arterial strips when the effects were compared to a standard noradrenaline (NA) response. Phentolamine (3.6 X 10(-6) M) reduced the DHE-induced contraction in veins by about 30% and in arteries by about 10%. Indomethacin (2.8 X 10(-7) M) reduced DHE-induced contractions in veins by about 60% but enhanced the DHE effects in the arteries. When arachidonic acid (AA) was added to stimulated vascular strips it caused further contractions in veins but relaxation in arteries. Both effects were inhibited after indomethacin. In veins AA was significantly more effective in the presence of DHE as compared to controls, to NA- or to KCl-stimulated strips. In arteries AA showed the strongest relaxant activity in the presence of NA. Low doses of prostaglandin E2, however, relaxed both venous and arterial strips. The results suggest that contraction of canine vascular smooth muscle is associated with synthesis of a prostaglandin-like substance of substances having constrictor activity in veins but relaxant activity in arteries and that in venous smooth muscle cells the formation of this material is enhanced by dihydroergotamine.     

A regional difference in the distribution of postsynaptic alpha-adrenoceptor subtypes in canine veins

The responsiveness of helical venous strips isolated from fifteen different sites in the body of dogs to relatively selective alpha 1- and alpha 2-adrenoceptor agonists was studied, as well as to a non-selective alpha-adrenoceptor agonist. Longitudinal strips of the portal and mesenteric veins and the inferior vena cava between the liver and the renal vein (segment C) were also investigated. All veins contracted to noradrenaline or phenylephrine whereas only seven veins responded significantly to clonidine: the saphenous, cephalic, jugular and femoral veins and longitudinal strips of the portal and mesenteric veins and the segment C of the inferior vena cava. The brachiocephalic, azygos, pulmonary and splenic veins and the superior vena cava and the supradiaphragmatic portion (segment A) and the infrarenal portion (segment D) of the inferior vena cava responded little to clonidine. Unlike the longitudinal strips, the helical strips of the portal and mesenteric veins and the segment C of the inferior vena cava did not respond to clonidine. According to the relative sensitivities to phenylephrine and clonidine, those veins which responded to clonidine could be divided into three groups. (1) The veins in which the sensitivity to phenylephrine was higher than to clonidine: longitudinal strips of the portal vein and segment C of the inferior vena cava, (2) the veins whose sensitivity to phenylephrine was lower than to clonidine: the saphenous, cephalic, femoral and external jugular veins, (3) the vein whose sensitivity to the two agonists was comparable: longitudinal strips of the mesenteric vein. Subtype characteristics were further analyzed in the saphenous vein and in the portal vein using prazosin, phentolamine and yohimbine as antagonists. Analysis of Schild plots to noradrenaline suggested that a mixed population of alpha-adrenoceptor subtypes might be present in the saphenous vein, whereas a rather homogeneous population of a single subtype might occur in the portal vein. The results of the antagonism experiment against phenylephrine and clonidine suggested that contractions of the saphenous vein are mediated by both alpha 1- and alpha 2-adrenoceptors whereas contractions of the portal vein are exerted mainly through alpha 1-adrenoceptors. The results suggest that there may be a distinct regional difference with respect to postsynaptic alpha- adrenoceptor subtypes in the canine venous system.     

Vasodilator actions of felodipine, a new Ca2+ entry blocker

Felodipine [ethylmethyl 4-(2,3-dichlorophenyl)-1,4-dihydro-2,6-dimethyl-3,5- pyridinedicarboxylate], a new Ca2+ entry blocker, relaxed isolated canine arteries and veins precontracted with prostaglandin (PG) F2 alpha, in a concentration-dependent manner. Felodipine dilated cerebral arteries predominantly over the other arteries. Relaxations by felodipine, in low concentrations, were greater in mesenteric vein strips than in mesenteric artery strips isolated from the same dogs. The inhibitory effect of felodipine in high concentrations (10(-7)M or higher) were not reversed by repeated washing. In coronary arteries exposed to Ca2+-free media under anoxia, PGF2 alpha and Ca2+ produced persistent contractions. Reoxygenation from anoxia elicited an additional contraction. Felodipine did not affect PGF2 alpha-induced contraction in Ca2+-free media, but significantly reduced the contractions caused by Ca2+ and reoxygenation. These findings suggest that felodipine is a potent, long-acting Ca2+ entry blocker with characteristics such as a greater action on cerebral arteries and mesenteric veins than coronary and mesenteric arteries.     

Pharmacology of pentoxifylline in isolated canine arteries and veins

Pentoxifylline possesses vasodilator properties, but little information is available on the mechanism of action explaining this vasodilator effect. The present experiments were designed to determine the effects of the compound on vascular smooth muscle, endothelium, and adrenergic nerves in rings of isolated canine blood vessels. Pentoxifylline did not affect basal tension in coronary and femoral arteries or in saphenous and mesenteric veins; it did not alter the rhythmic activity of the latter, but did cause endothelium-independent relaxations of unstimulated basilar arteries. In coronary arteries and saphenous veins, but not femoral arteries contracted with prostaglandin F2 alpha, the compound caused relaxations which were not affected by propranolol or by removal of the endothelium. Pentoxifylline inhibited the endothelium-dependent contractions to the Ca2(+)-ionophore A23187 in the basilar artery. In saphenous veins (with endothelium), pentoxifylline did not inhibit responses to high K+, electrical stimulation of the adrenergic nerves, or exogenous norepinephrine (NE); it reduced contractions evoked by xylazine and hypoxia. In the basilar artery and the saphenous vein, the inhibitory effect of pentoxifylline was prevented by inhibitors of cyclooxygenase and thromboxane synthetase. These experiments suggest that the dilator properties of pentoxifylline in isolated canine blood vessels are primarily at the level of the vascular smooth muscle and may involve decreased production of, or reduced responsiveness to, endogenous thromboxanes.     

Mechanisms of action of eperisone on isolated dog saphenous arteries and veins

Effects of eperisone, an antispasmodic in skeletal muscle, were investigated in helical strips of dog saphenous artery and vein. Eperisone relaxed saphenous arteries and veins previously contracted with norepinephrine, serotonin, acetylcholine, K+, or Ba2+; but in contrast, it produced contractions in the blood vessels contracted with prostaglandin (PG) F2 alpha. Treatment with eperisone attenuated the contractions induced by norepinephrine and serotonin in the arteries and those by clonidine and phenylephrine in the veins. Eperisone inhibited angiotensin II-induced relaxations, mediated possibly by endogenous PGI2, but did not alter relaxations caused by exogenous PGI2. Treatment with eperisone (10(-5) M) potentiated the contractile response to electrical stimulation of adrenergic nerves; the potentiating effect was suppressed by yohimbine. The eperisone-induced contraction in PGF2 alpha-contracted arteries was inhibited by treatment with indomethacin or aspirin, although cyclooxygenase activity was not inhibited by eperisone. These results may indicate that eperisone blocks postjunctional alpha 1- and alpha 2-adrenergic, muscarinic, serotonergic receptors and prejunctional alpha 2 adrenoceptors and reduces PGI2 synthesis via a mechanism other than cyclooxygenase inhibition.     

Prostacyclin release and receptor activation: differential control of human pulmonary venous and arterial tone

1. In human pulmonary vascular preparations, precontracted arteries were more sensitive to the relaxant effect of acetylcholine (ACh) than veins (pD(2) values: 7.25+/-0.08 (n=23) and 5.92+/-0.09 (n=25), respectively). Therefore, the role of prostacyclin (PGI(2)) was explored to examine whether this mediator may be responsible for the difference in relaxation. 2. In the presence of the cyclooxygenase (COX) inhibitor, indomethacin (INDO), the ACh relaxations were reduced in arteries but not in veins. On the contrary, an inhibitor (l-NOARG) of the nitric oxide synthase blocked preferentially the relaxation in veins. 3. A greater release of 6-keto-PGF(1alpha), the stable metabolite of PGI(2), was observed in arterial preparations than in venous preparations when stimulated with either ACh or arachidonic acid (AA). 4. Exogenous PGI(2) produced a reduced relaxant effect in the precontracted vein when compared with the artery. In the presence of the EP(1)-receptor antagonist AH6809, the PGI(2) relaxation of veins was similar to arteries. 5. In veins, AA (0.1 mm) produced a biphasic response, namely, a contraction peak (0.4-0.5 g) followed by a relaxation. These contractions in venous preparations were abolished either in the absence of endothelium or in the presence of INDO or an EP(1)-receptor antagonist (AH6809, SC19220). In the arterial preparations AA induced only relaxations. 6. In both vascular preparations, COX-1 but not the COX-2 protein was detected in microsomal preparations derived from homogenized tissues or freshly isolated endothelial cells. 7. The differential vasorelaxations induced by ACh may be explained, in part, by a more pronounced production and release of PGI(2) in human pulmonary arteries than in the veins. In addition, while PGI(2) induced relaxation by activation of IP-receptors in both types of vessels, a PGI(2) constrictor effect was responsible for masking the relaxation in the veins by activation of the EP(1)-receptor.     

Comparison of responses to angiotensin II of dog mesenteric arteries and veins.

Responses to angiotensin II (AII), arachidonic acid (AA) and prostaglandin (PG) I2 were compared in helical strips of dog mesenteric arteries and veins. Arterial strips contracted in response to AII, whereas venous strips responded with a transient, slight contraction followed by a moderate relaxation. The peptide-induced responses were abolished by treatment with saralasin, but were not influenced by ONO3708, an inhibitor of vasoconstrictor PG actions, or by endothelium denudation. Treatment with indomethacin potentiated the contractile response of the arteries and reversed the relaxant response of veins to a contraction. The concentration of exogenous PGI2 methylester needed to produce a tension development similar to that induced by PGI2 released by AII was greater in the mesenteric arteries than in the veins. The amount of 6-keto PGF1 alpha in the bathing media measured by radioimmunoassay was increased in the arteries and veins stimulated by AII. Exogenously applied PGI2 elicited relaxations of similar magnitude in the arteries and veins. AA-induced relaxations were greater in the veins; indomethacin suppressed the arterial and venous relaxations. The magnitude of the endothelium-dependent relaxation induced by A23187 was similar in the arteries and veins. It appears that the heterogenous responses to AII of dog mesenteric arteries and veins are due mainly to the difference in the AII receptors responsible for smooth muscle contraction and also to the difference in the ability to produce and liberate PGI2. The synthesis and the action of EDRF (endothelium-derived relaxing factor) does not seem to differ in the arteries and veins.     

Marked neuropeptide Y-induced contractions via NPY-Y1 receptor and its desensitization in rat veins

The aim of this study was to investigate neuropeptide Y (NPY)-induced vasoconstrictions in rat blood vessels and which NPY receptor subtype is involved in vasoconstrictions. NPY produced marked contractions in rat common jugular, brachial, portal, femoral and tail veins, and vena cava inferior, whereas it produced little or no contractions in rat common carotid, brachial, femoral and tail arteries, and thoracic and abdominal aortae. The maximal NPY-induced contractions were larger than maximal phenylephrine (PE)-induced contractions in the veins. These NPY-induced contractions were blocked by the Y1 antagonists, SRL-21, and BIBP3226 but not by the Y5 antagonist, L-152804. A Y2 agonist, NPY (13-36), did not produce contractions. RT-PCR showed that NPY-Y1 was the only receptor subtype in the veins indicating that NPY-induced contractions are mediated through the Y1 receptor. Pretreatment with NPY showed a rapid and long-lasting desensitization of these contractions. The marked NPY-induced contractions and its desensitization in the veins suggest the physiological relevance of NPY in the venous circulation.     

Heterogeneity of 5-HT receptor subtypes in isolated human femoral and saphenous veins

Summary Changes in tension were monitored isometrically on helical strips from both femoral and saphenous human veins obtained during autopsy and during surgical removal of varicose veins respectively. Both venous tissues contracted in response to 5-hydroxytryptamine (5-HT), 5-carboxamidotryptamine (5-CT) and 8-hydroxy2-(di-n-propylamino) tetralin (8-OH-DPAT). While 5-HT was about 2 times more potent in saphenous (pD₂ = 7.35) than in femoral veins (pD₂ = 7.04), 5-CT stimulated the saphenous vein (pD₂ = 7.62) at about 20 times lower concentrations than were required for stimulation of the femoral vein (pD₂ = 6.27). 8-OH-DPAT induced venoconstriction only when used at very high concentrations and pD₂ values could not be determined. These data suggested different subtypes and/or distribution of 5-HT receptors in both venous preparations. Further evidence for this was obtained by the observation that spiperone (a 5-HT receptor blocker with high affinity for 5-HT₂ and 5-HT_1A sites) produced a parallel shift to the right of the 5-HT curve in femoral veins but elicited a biphasic displacement of the 5-HT curve in saphenous veins. In the femoral vein, spiperone showed a pA₂ value of 9.20±0.08, statistically not different from that calculated for the spiperone sensitive 5-HT effect in saphenous vein (pA₂ = 9.14±0.08).The results suggest that regional variations in the distribution of 5-HT receptor subtypes do exist, human femoral veins possessing mainly 5-HT₂ receptors whereas in human saphenous veins both 5-HT₁-like and 5-HT₂ receptors are present.Correspondence to E. Müller-Schweinitzer at the above address     

Effects of CD-832, a dihydropyridine derivative with a nitrate ester moiety, on rabbit femoral artery and vein

We investigated the effects of CD-832 ((4R)-(−)-2-(nicotinoyl-amino)ethyl 3-nitroxypropyl 1,4-dihydro-2,6-dimethyl-4,3-nitrophenyl, 3,5-pyridine dicarboxylate), a dihydropyridine derivative with a nitrate ester moiety, on contractile responses in rabbit femoral arteries and veins. CD-832 (10⁻⁸ to 10⁻⁶ M) and nifedipine inhibited the 64 mM KCl-induced and 10⁻⁶ M norepinephrine-induced contractions of rabbit femoral arteries, while nitro compounds had no effect on the contractions. CD-832 (10⁻⁸ to 10⁻⁶ M) and nitro compounds inhibited the 10⁻⁶ M norepinephrine-induced contractions in rabbit femoral veins, while other Ca²⁺ channel antagonists had little effect. The inhibitory effects of CD-832 (10⁻⁷ M) on norepinephrine-induced contractions were antagonized by treatment with methylene blue (10⁻⁵ M). These results indicate that CD-832 potently relaxes venous smooth muscle, and that it may be a useful agent for the treatment of angina pectoris.     

Studies on the peripheral mode of action of dihydroergotamine in human and canine veins

Changes in tensions wre monitored isometrically on spiral strips of freshly obtained human varicose and dog saphenous and femoral veins. Cumulative dose-reserpine curves for noradrenaline (NA) were shifted to the right in the presence of dihydroergotamine (DHE). pA₁₀ values, calculated from the shifts at the 50% effect levels were 5.6 on human varicose, 7.2 on dog saphenous and 8.4 on femoral veins. DHE stimulted the three preparations in about the same concentration ranges (pD₂ 7.5, 8.3 and 8.0) but compared with NA it had different intrinsic activities (0.3, 0.1 and 0.16 on human varicose, dog saphenous and femoral veins respectively). On dog saphenous veins about 30% of DHE-induced contractions could be blocked by phentolamine and about 60% by indomethacin. DHE provoked a significant increase in the level of prostaglandin E-like substances(s) in the bathing fluid.The results suggest that the venoconstrictor response to DHE is mediated partially through α-adrenoceptors and the enhanced synthesis of prostaglandins may also contribute.     

Inhibitory effect of dichlorvos on arterial smooth muscle contraction

The effect of the organophosphate pesticide, dichlorvos, on the contractile responses of isolated rat tail arteries has been studied. Dichlorvos (10(-8)-10(-4) M) had no effect on baseline tension, but relaxed 10(-7) M norepinephrine (NE), 10(-7) M 5-HT or 100 mM KCl contractions dose-dependently. Dichlorvos also inhibited CaCl2 dose-response curves in K+-depolarized strips, as well as depressing both phasic and tonic components of NE-induced contractions. The results suggest a direct relaxant effect of dichlorvos on arterial smooth muscle by a mechanism probably related to interference with Ca2+ supply.     

Vasodilatation induced by pinacidil in dogs. Comparison with hydralazine and nifedipine

In helical strips of dog arteries precontracted with prostaglandin (PG) F2 alpha, pinacidil and nifedipine produced a dose-related relaxation. The potencies of pinacidil were in the order of coronary and renal greater than mesenteric greater than basilar and middle cerebral arteries, whereas those of nifedipine were in the order of basilar and renal greater than mesenteric and coronary arteries. Pinacidil caused a greater relaxation in mesenteric veins than in the arteries. Hydralazine consistently relaxed the arteries only at 10(-3) M. In mesenteric artery strips exposed to Ca2+-free, high K+ media, contractions induced by Ca2+ were reduced by 10(-8) M nifedipine, but they were not influenced by 10(-5) M pinacidil or by 10(-4) M hydralazine. In the arteries exposed to Ca2+-free media and stimulated by PGF2 alpha or norepinephrine, tonic contractions induced by Ca2+ were reduced moderately by 10(-5) M pinacidil but only slightly by 10(-8) M nifedipine. In Ca2+-free media, PGF2 alpha-induced contractions were inhibited only by pinacidil. In isolated mesenteric vasculature, perfusion pressure was lowered by pinacidil and hydralazine. It may be concluded that pinacidil produces vasodilatation due to interference with the transmembrane influx of Ca2+ into smooth muscle evoked by receptor stimulation but not that due to inhibition in the Ca2+ influx associated with K+-induced membrane depolarization. Decreased release of Ca2+ from intracellularly stored sites or increased sequestration to the sites may also be involved. Pinacidil appears to dilate arteries and veins as well as resistance vessels, whereas hydralazine appears to act exclusively on resistance vessels.     

Role of stimulatory GTP-binding protein (Gs) in reduced beta-adrenoceptor coupling in the femoral artery of spontaneously hypertensive rats.

1. Arterial relaxant responses to beta-adrenoceptor agonists are decreased in spontaneously hypertensive rats (SHR) when compared with normotensive Wistar-Kyoto rats (WKY). To establish which component of the beta-adrenoceptor.adenylate cyclase (AC) system is impaired in the SHR arteries, effects of two activators of AC--cholera toxin (CTX) and forskolin--and of dibutyryl cyclic AMP (db cyclic AMP) were compared between strips of femoral arteries isolated from 13 week-old SHR and age-matched WKY. 2. In the absence of timolol, a beta-adrenoceptor antagonist, contractile responses of the strips to noradrenaline (NA) were significantly greater in the SHR than in the WKY. Timolol augmented the contractile responses to NA to a smaller extent in the SHR than in the WKY. 3. After blockade by timolol of beta-adrenoceptors, contractile responses of the strips to NA through the activation of alpha-adrenoceptors were not significantly different between the two strains. 4. Pre-treatment of the strips with CTX, an activator of the stimulatory GTP-binding protein (Gs), produced a slow-onset and long-lived antagonism of the alpha-adrenoceptor-mediated contractions. The antagonism was much smaller in the SHR than in the WKY. 5. The dose-response curves of the strips from both strains for alpha-adrenoceptor stimulation with NA determined after pretreatment with CTX were comparable to those determined in the absence of timolol. 6. Forskolin, an activator of the catalytic subunit of AC, and DB cyclic AMP also antagonized the alpha-adrenoceptor-mediated contractions. However, these antagonisms were not significantly different between the two strains. 7. Isobutyl methylxanthine (IBMX), an inhibitor of cyclic AMP phosphodiesterase, produced a similar antagonism of the alpha-adrenoceptor-mediated contractions between the two strains. 8. These results suggest that a reduced function of Gs is the main factor responsible for the decreased responsiveness to beta-adrenoceptor stimulation in the SHR femoral artery.     

Charybdotoxin-sensitive K+ channels regulate the myogenic tone in the resting state of arteries from spontaneously hypertensive rats.

1. To determine the possible role of Ca(2+)-activated K+ (KCa) channels in the regulation of resting tone of arteries from spontaneously hypertensive rats (SHR), the effects of agents which interact with these channels on tension and 86Rb efflux were compared in endothelium-denuded strips of carotid, femoral and mesenteric arteries from SHR and normotensive Wistar-Kyoto rats (WKY). 2. Strips of carotid, femoral and mesenteric arteries from SHR exhibited a myogenic tone; that is, the resting tone decreased when either the Krebs solution was changed to a 0-Ca2+ solution or 10(-7) M nifedipine was added. 3. The addition of charybdotoxin (ChTX, 10(-9)-10(-7) M), a blocker of large conductance KCa channels, to the resting strips of these arteries produced a concentration-dependent contraction, which was significantly greater in SHR than in WKY. Relatively low concentrations of tetraethylammonium (0.05-5 mM) produced a concentration-dependent contraction which was similar to the ChTX-induced contraction in these strips. 4. The ChTX-induced contractions in SHR were greatly attenuated by 10(-7) M nifedipine and by 3 x 10(-6) M cromakalim, a K+ channel opener. Cromakalim alone abolished the myogenic tone in SHR. 5. The addition of apamin (a blocker of small conductance KCa channels, up to 10(-6) M), or of glibenclamide (a blocker of ATP-sensitive K+ channels, up to 5 x 10(-6) M), to the resting strips failed to produce a contraction. 6. In resting strips of carotid, femoral and mesenteric arteries preloaded with 86Rb, the basal 86Rb efflux rate constants were significantly greater in SHR than in WKY.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dual excitatory and smooth muscle‐relaxant effect of β‐phenylethylamine on gastric fundus strips in rats

β‐Phenylethylamine (β‐PEA) is a trace amine with chemical proximity to biogenic amines and amphetamines. It is an endogenous agonist of trace amine‐associated receptors (TAARs) that acts as a neuromodulator of classic neurotransmitters in the central nervous system. At high concentrations, β‐PEA contracts smooth muscle, and a role for TAARs in these responses has been postulated. The high dietary intake of trace amines has been associated with such symptoms as hypertension and migraine, especially after the intake of foods containing such compounds. In gastrointestinal tissues, TAAR expression was reported, although the effect of β‐PEA on gastric contractile behaviour is unknown. Here, isolated strips that were obtained from the rat gastric fundus were stimulated with high micromolar concentrations of β‐PEA. Under resting tonus, β‐PEA induced contractions. In contrast, when the strips were previously contracted with KCl, a relaxant response to β‐PEA was observed. The contractile effect of β‐PEA was inhibited by 5‐hydroxytryptamine (5‐HT) receptor antagonists (i.e., cyproheptadine and ketanserin) but not by the TAAR₁ antagonist EPPTB. In gastric fundus strips that were previously contracted with 80 mmol/L KCl, the relaxant effect of β‐PEA intensified in the presence of 5‐HT receptor antagonists, which was inhibited by EPPTB and the adenylyl cyclase inhibitor MDL‐12,330A. The guanylyl cyclase inhibitor ODQ did not alter the relaxant effects of β‐PEA. In conclusion, β‐PEA exerted dual contractile and relaxant effects on rat gastric fundus. The contractile effect appeared to involve the recruitment of 5‐HT receptors, and the relaxant effect of β‐PEA on KCl‐elicited contractions likely involved TAAR₁.     

Effects of S-dobutamine on venous blood return and organ nutrient blood flow.

The selective contractile effects of s-dobutamine were studied in vitro in selected canine arteries and vein preparations; propranolol was included to block potential beta-mediated vasodilation. These in vitro data were expanded by quantifying the in vivo effects of s-dobutamine on venous blood return and redistribution of regional nutrient blood flow (NBF) and non-nutrient blood flow (non-NBF) in anesthetized dogs. In in vitro studies with isolated canine arteries and veins, s-dobutamine exhibited vein-selective constriction. At maximally efficacious concentrations of agonist, contractions of carotid, coronary, and femoral arteries in response to s-dobutamine were only 7, 25 and 45% as great as those elicited by norepinephrine (NE). Similarly, in jugular vein, s-dobutamine-mediated contractions were 55% as great as those obtained in response to NE. Coronary and femoral arteries precontracted with NE were relaxed in a dose-related manner by increasing concentrations of s-dobutamine. Effects of NE and s-dobutamine on venous blood return (VR) were compared in dogs. s-Dobutamine increased VR by 49 +/- 10 ml, whereas NE increased VR by 14 +/- 6 ml during 5-min infusion. s-Dobutamine significantly increased coronary NBF in left ventricular (LV) endocardium from 115 +/- 10 to 194 +/- 13 and 263 +/- 9 ml/min/100 g at doses of 10 and 20 micrograms/kg/min, respectively. In addition, LV epicardium flow was increased from 87 +/- 8 to 189 +/- 15 and 262 +/- 11 ml/min/100 g at 10 and 20 micrograms/kg/min, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Different modulation by cyclooxygenase inhibitors of the response to angiotensin II in monkey arteries and veins

In coronary, renal and femoral arteries and mesenteric veins isolated from Japanese monkeys, tachyphylaxis to angiotensin (ANG) II (10(-7) M)-induced contraction rapidly developed. Contractions caused by ANG II in coronary arteries were attenuated by treatment with indomethacin and aspirin and also by endothelium denudation. Indomethacin inhibited the response of the arteries with and without endothelium to a similar extent. OKY 046, a thromboxane A2 synthesis inhibitor, failed to inhibit the response. In contrast, contractions of renal arteries were potentiated and prolonged by the cyclooxygenase inhibitors. ANG II-induced contractions of mesenteric veins were prolonged but those of femoral arteries were not altered by indomethacin. It is concluded that ANG II contracts monkey coronary arteries, possibly due to the release of vasoconstrictor prostanoids but not thromboxane A2 from endothelial and subendothelial tissues and also due to its direct action on smooth muscle, whereas contractions of renal arteries and mesenteric veins are blunted by vasodilator prostanoids, possibly PGI2. Cyclooxygenase products even if released do not appear to regulate femoral artery contractions produced by ANG II.     

Evidence for reduced beta-adrenoceptor coupling to adenylate cyclase in femoral arteries from spontaneously hypertensive rats.

1. Arterial relaxant responses via beta-adrenoceptors have been demonstrated to be decreased in spontaneously hypertensive rats (SHR) when compared with normotensive Wistar-Kyoto rats (WKY). To determine which process of the beta-adrenoceptor.adenylate cyclase (AC) system is involved in the decreased responsiveness to beta-adrenoceptor stimulation, relaxant responses to forskolin and dibutyryl cyclic AMP (db cyclic AMP) were compared strips of femoral and mesenteric arteries isolated from 13 week-old SHR and age-matched WKY. 2. The relaxant response to either forskolin, an activator of AC, or db cyclic AMP was not significantly different between the SHR and WKY, when the strips of both arteries from both strains were contracted with K+ to an equivalent magnitude (85% of the maximum). 3. Under the same conditions, however, the relaxant response to noradrenaline (NA) via beta-adrenoceptors was significantly decreased in the SHR arteries. 4. When the strips of femoral arteries were contracted with the same concentration of K+, there was a precontraction of greater magnitude in response to the K+ and a decreased relaxation in response to forskolin, db cyclic AMP or NA in the SHR. On the other hand, when the strips of mesenteric arteries were contracted with the same concentration of K+, the precontraction was smaller in magnitude and there was an increased relaxation in the SHR. 5. The relationship between the relaxant responses and the K+-induced precontractions clearly showed that the ability of forskolin and NA to relax the K+-contracted strips depends on the magnitude of precontraction. Therefore, a difference in magnitude of precontraction between the two groups may produce a meaningless difference. 6. The relaxant responses to forskolin and NA were significantly potentiated by the addition of isobutyl methylxanthine (IBMX), an inhibitor of cyclic AMP phosphodiesterase. Even in the presence of IBMX, relaxant responses to forskolin were the same for the two strains. The difference in the pD2 value for NA-induced relaxation between the two strains was the same in the presence and absence of IBMX. 7. The relaxant effect of either nitroprusside or nifedipine, agents which are independent of this system, was not significantly different between the strips from SHR and WKY. These relaxations were not potentiated by IBMX. 8. From these results, it is concluded that the reduced beta-adrenoceptor coupling to AC is mainly involved in the decreased responsiveness to beta-adrenoceptor stimulation. Furthermore, for an accurate comparison to be made, it is necessary to minimize the influence of variations in the magnitude of precontraction on the relaxant responses.