Effect of prostacyclin on myogenic activity and adrenergic neuroeffector interaction in canine isolated veins

In isolated strips of canine mesenteric vein prostacyclin (PGI₂) causes a dose-dependent depression of the amplitude of the spontaneous rhythmic contractions without influencing their frequency. This suggests that prostacyclin affects the events leading from the depolarization of the smoole muscle cells to their contractions, rather than the induction of the myogenic activity itself. Furthermore, prostacyclin reduces the noradrenaline-induced contraction of the canine saphenous vein without affecting the electrically induced responses, suggesting a possible dual effect of the drug: at the smooth muscle it causes depression of the responsiveness to noradrenaline whereas at the adrenergic nerve endings it enhances the evoked release of the adrenergic transmitter.     

Actions of prostacyclin (PGI2) on adrenergic neuroeffector transmission in the rabbit kidney.

In the Tyrode's perfused rabbit kidney PGI2 (1.3 x 10(-8)-3.3 x 10(-7)M) dose-dependently inhibited vasoconstrictor responses to sympathetic nerve stimulation, as did PGE2. The dose-effect curve of the two compounds differed, making PGI2 the less potent in the low concentration and the more potent in the high. PGI2 also inhibited the vasoconstrictor response to exogenous noradrenaline, but it had no effect on transmitter release. The main metabolite of PGI2, 6-keto-PGF1 alpha, was ineffective both on noradrenaline release and on vascular responses to nerve stimulation or exogenous noradrenaline. It is suggested that PGI2, if a significant renal prostaglandin, may modulate renal neuroeffector transmission post-junctionally, thereby forming a complement to the prejunctional action of PGE2.     

Effects of prostacyclin on the canine isolated basilar artery.

Prostacyclin (PGI2) produced a biphasic response in canine isolated basilar arteries. In low doses (1 X 10(-8)M-1 X 10(-7)M) PGI2 caused a slight but consistent relaxation of resting muscle tone. In low concentrations (1 X 10(-8)M-1 X 10(-6)M) PGI2 antagonized muscle contractions caused by serotonin or prostaglandin (PG) F2 alpha. This relaxant effect with low doses of PGI2 on the isolated cerebral artery contrasts with findings obtained with other PGs and supports the hypothesis that PGI2 is a mediator of vasodilatation. However, in 1 X 10(-5)M concentrations PGI2 contracted the arterial muscle and did not antagonize contractions induced by serotonin or PGF2 alpha.     

Transepithelial prostacyclin gradient in isolated canine trachea

Cyclooxygenase products of arachidonic acid, potential modulators of airway smooth muscle, have recently been described in bronchoalveolar lavage from canine lungs. To evaluate the possibility that airway epithelium represents a barrier to movement of prostacyclin (PGI2), an important bronchodilator synthesized by isolated airway, we measured the concentrations of 6-oxoprostaglandin F1 alpha (6-oxo-PGF1 alpha), the stable degradation product of PGI2, on the mucosal and serosal sides of isolated canine tracheal segments (CTS) mounted in Ussing chambers. 6-oxo-PGF1 alpha was measured by radioimmunoassay after purification by high-performance liquid chromatography. The concentration of 6-oxo-PGF1 alpha was significantly higher on the serosal than the mucosal side of CTS (1,262 +/- 252 vs. 390 +/- 168 pg.min-1.g-1, n = 8, P less than 0.05). A significant correlation was present between 6-oxo-PGF1 alpha measured on both sides of each CTS (r = 0.778, n = 26, P less than 0.01). 6-oxo-PGF1 alpha production from CTS stripped of mucosa was significantly greater than from isolated mucosa. Radiochromatograms obtained after incubation with [3H]arachidonic acid and calcium ionophore A23187 confirmed PGI2 as the predominant cyclooxygenase product of the submucosa, whereas the mucosa produced only small amounts of PGI2 in proportion to other cyclooxygenase products. PGI2 (10(-8) to 10(-6) M) applied to the mucosal surface of closed tracheal segments precontracted with histamine resulted in no significant relaxation, whereas serosal application showed a concentration-dependent effect. Radiolabeled 6-oxo-PGF1 alpha did not cross the isolated epithelium.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characteristics of myogenic reactivity in isolated rat mesenteric veins

Mechanisms of mechanically induced venous tone and its interaction with the endothelium and key vasoactive neurohormones are not well established. We investigated the contribution of the endothelium, l-type voltage-operated calcium channels (L-VOCCs), and PKC and Rho kinase to myogenic reactivity in mesenteric vessels exposed to increasing transmural pressure. The interaction of myogenic reactivity with norepinephrine (NE) and endothelin-1 (ET-1) was also investigated. Pressure myography was used to study isolated, cannulated, third-order rat mesenteric small veins and arteries. NE and ET-1 concentration response curves were constructed at low, intermediate, and high transmural pressures. Myogenic reactivity was not altered by nitric oxide synthase inhibition with N(ω)-nitro-L-arginine (L-NNA; 100 μM) or endothelium removal in both vessels. L-VOCCs blockade (nifedipine, 1 μM) completely abolished arterial tone, while only partially reducing venous tone. PKC (chelerythrine, 2.5 μM) and Rho kinase (Y27632, 3 μM) inhibitors largely abolished venous and arterial myogenic reactivity. There was no significant difference in the sensitivity of NE or ET-1-induced contractions within vessels. However, veins were more sensitive to NE and ET-1 when compared with corresponding arteries at low, intermediate, and high transmural pressures, respectively. These results suggest that 1) myogenic factors are important contributors to net venous tone in mesenteric veins; 2) PKC and Rho activation are important in myogenic reactivity in both vessels, while l-VOCCs play a limited role in the veins vs. the arteries, and the endothelium does not appear to modulate myogenic reactivity in either vessel type; and 3) mesenteric veins maintain an enhanced sensitivity to NE and ET-1 compared with the arteries when studied under conditions of changing transmural distending pressure.     

Actions of prostacyclin (PGI2) on adrenergic neuroeffector transmission in the rabbit kidney

In the Tyrode's perfused rabbit kidney PGI₂ (1.3 × 10⁻⁸-3.3 × 10^−7M) dose-dependently inhibited vasoconstrictor responses to sympathetic nerve stimulation, as did PGE₂. The dose-effect curve of the two compounds differed, making PGI₂ the less potent in the low concentration and the more potent in the high. PGI₂ also inhibited the vasoconstrictor response to exogenous noradrenaline, but it had no effect on transmitter release. The main metabolite of PGI₂, 6-keto-PGF_1α, was ineffective both on noradrenaline release and on vascular responses to nerve stimulation or exogenous noradrenaline. It is suggested that PGI₂,if a significant renal prostaglandin, may modulate renal neuroeffector transmission post-junctionally, thereby forming a complement to the prejunctional action of PGE₂.     

The effect of cold on adrenergic neurotransmission in canine saphenous arteries and veins

The effect of severe cold (5 to 10 degrees C) on adrenergic neurotransmission was compared in the isolated cutaneous (saphenous) artery and vein of the dog. The vein contracted to sympathetic nerve stimulation at temperatures as low as 10 degrees C; higher temperatures were needed for the artery to contract. Both blood vessels contracted to exogenous norepinephrine at temperatures as low as 5 degrees C. However, the contractile response to exogenous norepinephrine was less in the saphenous artery, and contractions to high K+ solution were depressed by cooling more in the artery than in the vein. During electrical stimulation of the sympathetic nerves in saphenous arteries and veins previously incubated with labeled norepinephrine, progressive cooling from 37 to 5 degrees C caused a sharp decline in overflow of [3H]norepinephrine and its metabolites. However, overflow of labeled norepinephrine in both blood vessels continued at very cold temperatures. Thus the inability of the saphenous artery to contract to sympathetic nerve stimulation at 10 degrees C can be explained by a greater sensitivity of the arterial smooth muscle to the direct depressant effect of cold, rather than to a differential release or metabolism or norepinephrine in the arterial wall or a loss of responsiveness to norepinephrine at very cold temperatures.     

Effects of prostacyclin on the canine isolated basilar artery

Prostacyclin (PGI₂) produced a biphasic response in canine isolated basilar arteries. In low doses (1 × 10^?8M?1 × 10^?7M) PGI₂ caused a slight but consistent relaxation of resting muscle tone. In low concentrations (1 × 10^?8M?1 × 10^?6M) PGI₂ antagonized muscle contractions caused by serotonin or prostaglandin (PG) F_2α. This relaxant effect with low doses of PGI₂ on the isolated cerebral artery contrasts with findings obtained with other PGs and supports the hypothesis that PGI₂ is a mediator of vasodilatation. However, in 1 × 10^?5M concentrations PGI₂ contracted the arterial muscle and did not antagonize contractions induced by serotonin or PGF_2α.     

Activities of prostaglandins and prostaglandin endoperoxides at adrenergic neuroeffector junctions.

The results presented in this paper indicate that: 1. The prostaglandin synthesis inhibitor, indomethacin, increases noradrenaline turnover in a variety of rat organs. This observation increases the probability that prostaglandins are involved in the control of adrenergic neurotransmission in vivo. 2. Administration of endoperoxides inhibits the release of noradrenaline from adrenergic nerve terminals. The effect can be explained, however, at least in part, by formation of degradation products, presumably mainly prostaglandin E2. 3. Prostaglandin F2 alpha enhances smooth muscle responses to adrenergic nerve stimulation in rabbit heart and guinea pig vas deferens. These actions must be considered prostjunctional, since the release of noradrenaline is unchanged or depressed.     

Effects of age on the adrenergic cardiac neuroeffector junction

Although it is clear that adrenergic nervous system control of cardiac function decreases with age and that the effector organ fails to adjust to this decreased control, it is not completely evident which of the many mechanisms operant at the adrenergic-cardiac neuroeffector junction contribute to this state. Prejunctionally, it appears that norepinephrine content decreases with age and that adrenergic axonal degeneration occurs. Also, evidence is available to suggest that modulation by prejunctional alpha adrenergic receptors of norepinephrine release is altered with increasing age, as is neuronal uptake of norepinephrine. Postjunctionally, it appears that beta-adrenergic receptor sensitivity to agonists undergoes age-related alterations, and possibly post receptor mechanisms involved in receptor-response coupling. Other mechanisms, such as those involved in transmitter uptake into extraneuronal sites, adrenergic neuronal responsiveness to stimulation, transmitter release and turnover, calcium and prejunctional receptor modulation of transmitter release, postjunctional receptor development of supersensitivity or subsensitivity, need further elucidation in order to have an understanding of the factors that contribute to the breakdown of homeostatic mechanisms that regulate the heart.     

Differential expression of connexin43 gap junctions in cardiomyocytes isolated from canine thoracic veins.

We investigated the phenotypic features of cardiomyocytes, including the gap junctions, in the myocardial sleeve of thoracic veins. Single cardiomyocytes, isolated from the canine pulmonary veins (PV) and superior vena cava (SVC) using digestive enzymes, were examined by immunoconfocal microscopy using antisera against connexin43 (Cx43), Cx40, and other cell markers. The results showed that isolated cardiomyocytes displayed rod shapes of various sizes, ranging from <50 microm to >200 microm in length, and all the cells expressed alpha-actinin and vinculin. Gap junctions made of various amounts of Cx43 and Cx40 were found at the cell borders. These two connexins were extensively co-localized. Comparison between the thoracic veins showed that cells of the SVC contained more Cx43 gap junctions (total Cx43 gap junctions area per cell surface area, 4.0 +/- 0.2% vs 1.5 +/- 0.2%; p<0.01). In addition, for single-nucleus cells, those from the PV were longer (103.7 +/- 3.6 vs 85.0 +/- 3.1 microm; p<0.01) but narrower (14.4 +/- 0.5 vs 16.9 +/- 0.9 microm; p<0.01). In conclusion, canine thoracic veins contain cardiomyocytes with differences in shape and gap junctions, suggesting that the electrical conduction properties may be different between the thoracic veins.     

Effect of prostacyclin on perfusion pressure, electrical activity, rate and force of contraction in isolated rat and rabbit hearts.

Prostacyclin when added to medium perfusing rat and rabbit hearts caused an increase in perfusion pressure at concentrations from 1 pg/ml ? 1 ng/ml (2.8 × 10^?12 ? 2.8 × 10^?9M) and a decrease at higher concentrations. Rhythm disturbances were observed with low prostacyclin concentrations in 6 of 10 rat hearts and 2 of 5 rabbit hearts studied. Increased heart rates were seen in the isolated rat hearts but not in the rabbit hearts. Force of contraction of isolated rat hearts was increased with increasing prostacyclin concentrations up to 100 pg/ml. Higher concentrations decreased contractile force. No inotropic effects were seen with rabbit hearts.     

ATP stimulates the release of prostacyclin from perfused veins isolated from the hamster hindlimb

ATP-stimulated prostacyclin release from veins was investigated using epigastric veins isolated from hamsters. Veins were perfused with MOPS-buffered physiological salt solution (PSS). ATP was administered into the perfusate, and the bath solution (MOPS-PSS) was collected and assayed for the presence of the stable prostacyclin metabolite 6-keto-PGF1alpha. ATP (100 microM) resulted in reproducible increases in bath concentration from 73 +/- 22 to 279 +/- 50 pg/ml (P < 0.05, n = 5). This response was abolished by indomethacin (10 microM, P < 0.05). To ascertain whether the endothelium was the source of prostacyclin, endothelium was disrupted using air (n = 10) or deoxycholic acid (n = 6). Perfusion with air significantly reduced (P < 0.05) but did not completely abolish ATP-stimulated release of prostacyclin, while deoxycholic acid totally abolished the response (P < 0.05). The nonselective P2 receptor antagonist reactive blue 2 (100 microM) attenuated ATP-mediated release of prostacyclin but did not significantly alter ACh-stimulated release of prostacyclin. The nonselective adenosine receptor antagonist xanthine amine congener (1 microM) had no effect on ATP-stimulated release, and adenosine did not stimulate the release of prostacyclin. These results show that increases in intraluminal concentration of ATP stimulate abluminal release of prostacyclin from the venous endothelium. This effect is mediated by P2 receptors while adenosine and its receptors are not involved in this response.     

Thromboxane and prostacyclin generation by human umbilical veins after thrombin.

Prostacyclin (PGI2) and Thromboxane B2 (TxB2) production induced by thrombin in human umbilical veins (HUV) was studied. Successive stimulations of HUV segments were performed with and without restoration of arachidonic acid (AA). Thrombin consistently stimulated the production of both substances. The magnitude of the increment declined with progressive stimuli. The addition of exogenous AA could restore the production of TXB2 but not that of PGI2. These results suggest that sustained stimulation of AA release may lead to an imbalance in the TXA2/PGI2 ratio perhaps through an effect of unknown products of AA oxidation on PGI2 synthase.     

Effect of adrenergic antagonists and cyclooxygenase inhibitors on the nicotine-induced hypothalamic-pituitary-adrenocortical activity.

Nicotine is a potent stimulus for the hypothalamic-pituitary-adrenal (HPA) axis. Systemic nicotine acts via central mechanisms to stimulate by multiple pathways the release of ACTH from the anterior pituitary corticotrops and corticosterone from the adrenal cortex. Nicotine may stimulate indirectly the hypothalamic paraventricular nucleus, the site of the corticotropin-releasing hormone (CRH) neurons which activates ACTH release. In the present studies an involvement of adrenergic system and prostaglandins synthesized by constitutive cyclooxygenase (COX-1) and inducible cyclooxygenase (COX-2) in the nicotine-induced HPA response in rats was investigated. Nicotine (2.5-5 mg/kg i.p.) significantly increased plasma ACTH and corticosterone levels measured 1 hr after administration. Adrenergic receptor antagonists or COX inhibitors were injected i.p. 15 min prior to nicotine and the rats were decapitated 1 hr after the last injection. Prazosin (0.01-0.1 mg/kg), an alpha1-adrenergic antagonist, significantly decreased the nicotine-evoked ACTH and corticosterone secretion. Yohimbine (0.1-1.0 mg/kg), an alpha2-adrenergic antagonist, moderately diminished ACTH response, and propranolol (0.1-10 mg/kg), a beta-adrenergic antagonist, did not significantly alter the nicotine-induced hormones secretion. Pretreatment with piroxicam (0.2-2.0 mg/kg), a COX-1 inhibitor, considerably impaired the nicotine-induced ACTH and corticosterone secretion. Compound NS-398 (0.2-5.0 mg/kg), a selective COX-2 blocker did not markedly alter these hormones secretion, and indomethacin (2 mg/kg), a non-selective COX inhibitor significantly diminished ACTH response. These results indicate that systemic nicotine stimulates the HPA axis indirectly, and both adrenergic system and prostaglandins are significantly involved in this stimulation. Noradrenaline, stimulating postsynaptic alpha1-adrenergic receptors, and prostaglandins, synthesized by COX-1 isoenzyme, are of crucial significance in the nicotine-induced ACTH and corticosterone secretion.     

Contractile responses of canine isolated pulmonary lobar arteries and veins to norepinephrine, serotonin, and tyramine.

Isolated helical strips of canine intrapulmonary lobar arteries and veins (about 4 mm in diameter) undergo dose-related tension development when exposed to increasing concentrations (10(-8) - 10(-3) M) of norepinephrine (NE), serotonin or 5-hydroxytryptamine (5-HT) and tyramine (Tyr). Venous segments were generally more sensitive while the maximum tension development was greater in the arterial strips, probably owing to their greater thickness. Both strips were more sensitive to 5-HT than NE and only responded to Tyr at high concentrations. Norepinephrine and 5-HT were nearly equally efficacious, whereas Tyr was less so. Responses to the latter were slow to develop, exhibited tachyphylaxis, and were greatly inhibited by phentolamine (10(-8) M), an alpha-adrenergic blocker. Exposure to cocaine (10(-5) M) enhanced submaximal NE responses, inhibited Tyr contractions and had no consistent effect on 5-HT responses. Phentolamine (10(-8) M) was also found to inhibit NE responses without altering 5-HT probably acts on other receptors. Tyramine may, in part, act directly on alpha-adrenergic receptors but may also release NE from surviving adrenergic nerve terminals in the preparation. Cocaine inhibits this effect and potentiates responses to lower levels of NE, presumably by blocking NE uptake into nerve terminals although a post-junctional action cannot be excluded.     

Modulation of lipolytic activity in isolated canine cardiac sarcolemma by isoproterenol and propranolol.

Cardiac sarcolemmal preparations isolated from dog were tested for membrane-associated phospholipase A and lipoprotein lipase activities. The sarcolemma hydrolyzed 1-acyl 2¹⁴C-linoleoyl 3-glycero-phosphorylethanolamine at pH 7.0 to form predominantly ¹⁴C-lyso PE with 5 mM EDTA and ¹⁴C-free fatty acid with 5 mM Ca²⁺ suggesting the presence of both phospholipases A₁ and A₂ and/or lysophospholipase activities in these preparations. Sarcolemmal PLA activity was stimulated 300% by 10^?5 to 10^?6 M d1-isoproterenol; this stimulation was blocked by 10^?4 M d1-propranolol. Lipoprotein lipase activity associated with the sarcolemmal fraction was enhanced 10-fold by 10^?5 M d1-isoproterenol; stimulation was blocked by d1-propranolol. Thus, the activities of membrane-bound lipolytic enzymes appear to be modulated by β-adrenergic agents in canine cardiac sarcolemma and could affect lipid dependent enzymes and/or membrane permeability.     

The interaction of stimulants on the function of isolated canine parietal cells

With isolation, the parietal cell is removed from the effects of the many endogenous substances that may modulate its function in intact mucosa, even in the basal state. The isolated canine parietal cell responds to the major endogenous regulators of secretion: histamine, acetylcholine and gastrin. These agents act on specific receptors as evidenced by (1) the specificity of antagonist (H2 antagonists, atropine, and dibutyryl cyclic GMP respectively), (2) the binding of radiolabelled ligands, and (3) the existence of separate second messenger systems (cyclic AMP for histamine, calcium influx for acetylcholine, and an unidentified mechanism for gastrin). Potentiating interactions, which occur between histamine and acetylcholine or histamine and gastrin, do not involve extra production of second messenger. When histamine and acetylcholine are given together, the amounts of cyclic AMP generated and of calcium entering the cell are not greater than when each is acting alone. The apparent non-specific effects of inhibitors acting in vivo, such as the inhibition of all forms of stimulation by H2 antagonists, could reflect withdrawal of the potentiating action of the background histamine always present in the mucosa.