Positive interaction between leukotriene C4 and histamine and other mediators on vascular tissues

The interaction of leukotriene C₄ (LTC₄) with the contractile activity of histamine (H), serotonin (5HT) and norepinephrine (NE) has been investigated in isolated vascular preparations. Threshold concentration of LTC₄ (5 × 10⁻⁹ M) significantly potentiated the vasoconstricting effect of these compounds on guinea-pig pulmonary artery (GPPA). This phenomenon was long-lasting for H since it was still present 40 min after LTC₄ had been washed. FPL-55712 (10⁻⁵M) counteracted the increased H response on GPPA induced by LTC₄. Potentiation of H activity due to LTC₄ was also observed on guinea-pig thoracic aorta (GPTA) indicating that LTC₄-induced hyperreactivity is not a phenomenon restricted to the pulmonary vascular bed. In the experiments carried out in presence of indomethacin (3 × 10⁻⁶M), LTC₄ still potentiated H-induced vasoconstriction on GPPA, however the time course of the phenomenon was significantly shorter than that observed in absence of the cyclooxygenase inhibitor. The contractile activity of H and NE on guinea-pig portal vein (GPPV) was not potentiated by LTC₄ These results demonstrate that LTC₄ induces hyperreactivity of the arterial vascular tissue to vasoactive compounds and suggest that cysteinyl-leukotrienes may have pathological significance in the hemodynamic changes occurring during anaphylactic reactions. Preliminary experiments carried out on human intralobar pulmonary artery strongly support this hypothesis.     

Pharmacologic characterization of the contractile activity of peptide leukotrienes in guinea-pig pulmonary artery

The actions of the peptide leukotrienes (LT) LTC4, LTD4 and LTE4 and phenylephrine (PE) were studied in isolated left branches of the guinea-pig pulmonary artery (GPPA). Indomethacin 5 x 10(-6) M enhanced both the potency and maximal response of all agonists, but the effect on LTD4 and LTE4 was larger. The influence of indomethacin suggests the release of an endogenous vasodilating cyclooxygenase product in GPPA. In the presence of indomethacin the rank-order of potency was LTC4 greater than LTD4 greater than LTE4 greater than or equal to PE with respective pD2 values of 7.65, 7.39, 6.35 and 6.26. All further studies were carried out in the presence of 5 x 10(-6) M indomethacin. Removal of the endothelium further increased both potency (greater than 3-fold) and the maximal response of all agonists tested, indicating that a non-cyclooxygenase endothelium-dependent relaxing factor may be present in GPPA. In separate studies, GPPA was demonstrated capable of metabolizing 3H-LTC4 to 3H-LTD4 by an L-serine borate inhibitable gamma-glutamyl transpeptidase. In contrast, relatively little formation of 3H-LTE4 was apparent either from 3H-LTC4 or 3H-LTD4. The LTD4-selective antagonists, LY 171,883 and ICI 198,615 had -log molar KB values of 6.07 +/- 0.14 and 9.38 +/- 0.32, respectively, against LTD4 in the absence of endothelium. The ability of LY 171,883 to antagonize LTC4 was eliminated in the presence of 45 mM serine borate in endothelium denuded tissues. LT receptors in GPPA appear to be heterogeneous and similar to guinea pig airway receptors.     

Enhancement of leukotriene D4-induced contraction of guinea-pig isolated trachea by platelet activating factor

The effect of platelet activating factor (PAF), a potent lipid mediator of inflammation, was examined in the induction of airway hyperreactivity to known mediators of anaphylaxis. Concentration-dependent contractions of the isolated guinea-pig trachea to PAF (10(-7)-10(-5) M) were produced and an EC50 value was found to be 7.5 X 10(-7) M. Pretreatment for 30 min with a known PAF inhibitor, CV-3988 (10(-5) or 10(-4) M), produced significant inhibition of PAF contractions; however, at 10(-6) M, CV-3988 had no effect. In the presence of meclofenamic acid (10(-6) M), the concentration-response curve to PAF was shifted significantly upward and to the left. This potentiation could be reversed by pretreating the tissues with the peptidoleukotriene antagonists, FPL 55712 or SK&F 102922 (10(-5) M). Pretreatment with PAF concentrations having essentially no intrinsic activity (10(-8), 10(-7)) significantly enhanced the contraction of guinea-pig trachea to various concentrations of LTD4 and to certain concentrations of a thromboxane mimic (U-46619). Pretreatment with lyso-PAF failed to potentiate the LTD4 response, while pretreatment with CV-3988 reverse the potentiation by PAF of the lower concentrations of LTD4. However, PAF failed to enhance contractions (with or without the presence of meclofenamic acid) to acetylcholine, histamine, PGD2 or LTC4 (in the presence of serine borate). These results indicate a possible role for PAF as a mediator of airway hyperreactivity.     

Contractions of amphibian Wolffian duct in response to acetylcholine, norepinephrine, and arginine vasotocin

The regulation of sperm transport through the Wolffian duct of male amphibians is poorly understood. These experiments were conducted using rough-skinned newts (Taricha granulosa) to determine if Wolffian ducts are capable of contracting in vitro and, if so, to characterize the contractile responses to acetylcholine (ACh), norepinephrine (NE), and neurohypophysial hormones. Dose-response curves for NE and ACh, which were prepared by measuring isometric contractions, are similar to those reported for mammalian vas deferens. For NE, the minimum effective dose and ED50 were found to be 1 X 10(-5)M and 4.17 X 10(-5)M, respectively. For ACh, the minimum effective dose was 3.2 X 10(-8)M and the ED50 was 1.37 X 10(-5)M. Alpha-adrenoreceptors appear to mediate the contractile responses to NE because phentolamine (10(-5)M) blocked or attenuated the response to NE (10(-6)M, 10(-5)M or 10(-4) M). Beta-adrenoreceptors appear to mediate relaxation because dichloroisoproterenol (10(-5)M) enhanced the response to 10(-5)M NE. The contractile response to three neurohypophysial hormones were also investigated. Arginine vasotocin was more effective in eliciting contractions than oxytocin. The effect of lysine vasopressin was intermediate between arginine vasotocin and oxytocin. These experiments demonstrate that amphibian (Taricha) Wolffian ducts contract in vitro in response to neurotransmitters and neurohypophysial hormones. The contractile response to neurotransmitters occurs in a dose-dependent manner; the response to neurohypophysial hormones is hormone specific.     

Captopril inhibits ouabain-sensitive Na+/K+-ATPase

Captopril has been reported to inhibit ouabain-sensitive Na+/K+-ATPase activity in erythrocyte membrane fragments. We investigated the effect of captopril on two physiological measures of Na+/K+ pump activity: 22Na+ efflux from human erythrocytes and K+-induced relaxation of rat tail artery segments. Captopril inhibited 22Na+ efflux from erythrocytes in a concentration-dependent fashion, with 50% inhibition of total 22Na+ efflux at a concentration of 4.8 X 10(-3) M. The inhibition produced by captopril (5 X 10(-3) M) and ouabain (10(-4) M) was not greater than that produced by ouabain alone (65.3 vs. 66.9%, respectively), and captopril inhibited 50% of ouabain-sensitive 22Na+ efflux at a concentration of 2.0 X 10(-3) M. Inhibition by captopril of ouabain-sensitive 22Na efflux was not explained by changes in intracellular sodium concentration, inhibition of angiotensin-converting enzyme or a sulfhydryl effect. Utilizing rat tail arteries pre-contracted with norepinephrine (NE) or serotonin (5HT) in K+-free solutions, we demonstrated dose-related inhibition of K+-induced relaxation by captopril (10(-6) to 10(-4) M). Concentrations above 10(-4) M did not significantly inhibit K+-induced relaxation but did decrease contractile responses to NE, although not to 5HT. Inhibition of K+-induced relaxation by captopril was not affected by saralasin, teprotide or indomethacin. We conclude that captopril can inhibit membrane Na+/K+-ATPase in intact red blood cells and vascular smooth muscle cells. The mechanism of pump suppression is uncertain, but inhibition of ATPase should be considered when high concentrations of captopril are employed in physiological studies.     

Differential activity of leukotrienes upon human pulmonary vein and artery

Responses to leukotrienes B4, C4, D4 and E4 were examined in human pulmonary artery and pulmonary vein preparations from surgical specimens. Leukotrienes C4 (LTC) and D4 (LTD) were potent contractants of pulmonary vein over the dose range of 10(-10) M to 10(-6) M, whereas they produced minimal contractions of human pulmonary artery only at concentrations of 10(-8) M or greater. Leukotriene E4 was less potent than LTC or LTD, and leukotriene B4 (LTB) at concentrations up to 10(-6) M had no effect upon either pulmonary veins or pulmonary arteries. Contractions of pulmonary vein by LTD were inhibited in a competitive manner by FPL 55712. Dose response characteristics of LTD and inhibition by FPL 55712 were similar for pulmonary venous and bronchial smooth muscle. We conclude that pulmonary vein smooth muscle has leukotriene receptors comparable to those of bronchial smooth muscle whereas pulmonary artery does not.     

Effects of oxidizing and reducing agents on ovine pulmonary artery responses to nitric oxide donors, sodium nitroprusside and 3-morpholino-sydnonimine

Nitrovasodilators-sodium nitroprusside (SNP; 10(-9)-10(-4) M) and 3-morpholino-sydnonimine (SIN-1; 10(-9)-10(-4) M) produced concentration-dependent relaxation of the fourth generation sheep pulmonary artery, preconstricted with 5-hydroxytryptamine (1 microM). Oxidizing agents [oxidized glutathione (GSSG, 1 mM) and CuSO4 (5 and 20 microM)] and reducing agents [dithiothreitol (DTT, 0.1 mM), ascorbic acid (1 mM) and reduced glutathione (GSH, 1 mM)] caused opposite effects on nitric oxide (NO)-induced vasodilation in the artery. Ascorbic acid and GSH potentiated the NO responses, while GSSG and CuSO4 inhibited relaxation caused by the nitrovasodilators. DTT, however, reduced the relaxant potency and efficacy of SNP and SIN-1. Pretreatment of the pulmonary artery strips with DTT (0.1 mM) inhibited SNP (10 microM)-induced Na(+)-K(+)-ATPase activity, while ascorbic acid (1 mM) and GSH (1 mM) had no effect either on basal or SNP (10 microM)-stimulated 86Rb uptake, an index of Na(+)-K(+)-ATPase activity, in ovine pulmonary artery. The results suggest that reducing agents like ascorbic acid may have beneficial effect in improving the vascular function under oxidative stress.     

Pharmacological study of the effects of leukotrienes C4, D4, E4 & F4 on guinea pig trachealis: interaction with FPL-55712

Leukotrienes D4 greater than C4 greater than E4 greater than F4 produced qualitatively similar contractions of guinea-pig trachealis, which were antagonized by the SRS-antagonist FPL-55712. Schild analyses indicated that FPL-55712 when tested in a low concentration range (0.57 - 5.7 X 10(-6) M) was a competitive antagonist of LTC4, LTE4 and LTF4 (slope not significantly different from one). The interaction of FPL-55712 with LTD4 may be noncompetitive (slope less than 1). Comparison of the calculated dissociation constants (-log KB) indicated that FPL-55712 was more effective at blocking LTE4 and LTF4 compared to LTC4 and LTD4. In the presence of higher concentrations of FPL-55712 (1.9 X 10(-5) M) the antagonism of LTC4 became noncompetitive. These findings indicate that important differences exist in the interaction of FPL-55712 with the various peptido leukotrienes in guinea pig trachealis. Discovery of more selective antagonists will be needed to determine if multiple receptor subtypes are present in this tissue.     

Pharmacological actions of the calcium antagonist propyl-methylenedioxyindene in skinned vascular smooth muscle

Previous studies provided strong evidence that propyl-methylenedioxyindene (pr-MDI) interfered with calcium at an intracellular site. To further characterize the mechanism of action of pr-MDI, its pharmacological actions on chemically skinned vascular smooth muscle were examined. Rat caudal artery strips were chemically skinned with saponin (0.15 mg/mL for 1 h). The efficiency of the skinning was evidenced by a loss of contractile response to 74 mM K+. The intactness of the regulatory and contractile proteins was ascertained by the ability of the skinned tissue to contract in response to Ca2+ (free Ca2+ concentration of 10(-4) or 10(-6)M). Caffeine (25 mM) induced contraction was used as an index of the functional integrity of the sarcoplasmic reticulum in the skinned preparations. Contraction of the skinned artery with a free Ca2+ concentration of 10(-6)M was significantly obtunded by 1 X 10(-4)M trifluoperazine (a calmodulin antagonist) but not by 1 X 10(-4)M pr-MDI. Contraction of the skinned artery evoked by 25 mM caffeine in the absence of extracellular calcium was significantly obtunded by 1 X 10(-4)M pr-MDI but not by 1 X 10(-6)M nifedipine (a calcium channel blocker). The results indicate that pr-MDI acts intracellular to block calcium mobilization from the sarcoplasmic reticulum without directly interfering with the regulatory and contractile proteins.     

Selective effect of microembolization on pulmonary removal of biogenic amines

Pulmonary amine extraction (E) was measured by triple-indicator dilution techniques from bolus injections of trace amounts of 5-hydroxy[14C]tryptamine ([14C]HT)m [3H]norepinephrine ([3H]NE), indocyanine green dye before and after glass-bead embolization in 23 anesthetized dogs. Control E(5-[14C]-HT) was 89.7 +/- 1.7%; 10 min after embolization (which approximately doubled pulmonary artery pressure and pulmonary vascular resistance), E(5-[14C]HT) was significantly reduced to 65.9 +/- 3.0% (kappa +/- SE; n = 10) (P less than 0.01). Control E([3H]NE) (40.1 +/- 4.5%) was unaffected by embolization. Imipramine (8 mg/kg) depressed control E(5-[14C]HT) to 38.7 +/- 1.5% and control E([3H]NE)d to 35.0 +/- 3.9% (P less than 0.05; n = 4). In these animals, pulmonary hemodynamic changes secondary to embolization were comparable to those in non-drug-treated dogs, but E(5-[14C]HT) and E([3H]NE) were not further depressed. Progressive pulmonary lobar artery ligation (n = 5) did not affect amine extraction until perfusion was limited to one lobe. The selectivity of the effect of embolization on E(5-[14C]HT), the lack of an effect on imipramine-insensitive E(5-[14C]HT) extraction, and the much smaller changes after progressive lobar ligation indicate that, although derecruitment of vascular surface area secondary to mechanical obstruction may contribute to postembolization depression of E(5-[14C]HT), additional mechanisms such as local saturation of 5-HT uptake or selective damage to endothelial cell transport of 5-HT may underlie these observations.     

Vasoconstrictor effects of leukotrienes C4 and D4 in the feline mesenteric vascular bed

The effects of leukotriene C4 (LTC4) and leukotriene D4 (LTD4) in the feline mesenteric vascular bed were investigated under conditions of controlled blood flow so that changes in perfusion pressure directly reflect changes in vascular resistance. Intra-arterial injections of LTC4 and LTD4 (0.3-3.0 micrograms) increased perfusion pressure in a dose-related fashion. Vasoconstrictor responses to LTC 4 and LTD4 were similar to norepinephrine (NE) whereas mesenteric vasoconstrictor response to the thromboxane analog, U46619, was markedly greater than were responses to LTC4 and LTD4. Meclofenamate in a dose that greatly attenuated the systemic depressor response to arachidonic acid was without effect on vasoconstrictor responses to LTC4 and LTD4, NE and U46619 in the mesenteric vascular bed. The present data show that LTC4 and LTD4 possess significant vasoconstrictor activity in the feline mesenteric vascular bed. In addition, the present data suggest that products of the cyclooxygenase pathway do not mediate vasoconstrictor responses to LTC4 and LTD4 in the intestinal circulation of the cat.     

Mechanism of peptidoleukotriene-induced increases in pulmonary transvascular fluid filtration

We examined the effects of leukotrienes C4 (LTC4) and D4 (LTD4) (1 microgram) on the pulmonary vascular filtration coefficient, a measure of vessel wall conductivity to water, and the alterations in pulmonary vascular resistance (PVR) in isolated-perfused guinea pig lungs. We also assessed whether LTC4 and LTD4 increased the permeability to albumin in cultured monolayers of pulmonary artery endothelial cells. In Ringer-perfused and blood-perfused lungs, LTC4 resulted in increases in pulmonary arterial pressure (Ppa) and the pulmonary capillary pressure (Pcap) measured as the equilibration pressure after simultaneous pulmonary arterial and venous occlusions. Pulmonary venous resistance (Rv) increased to a greater extent than arterial resistance (Ra) in both Ringer-perfused and blood-perused lungs challenged with LTC4. The greater increase in PVR in blood-perfused lungs corresponded with a greater elevation of lung effluent thromboxane B2 (TxB2) concentration. The LTC4-stimulated increase in PVR was prevented by pretreatment with meclofenamate (10(-4) M). LTD4 also induced rapid increases in Ppa and Pcap in both Ringer-perfused and blood-perfused lungs; however, Ppa decreased before stabilizing at a pressure higher than base line. The increases in Rv with LTD4 were greater than Ra. The LTD4-stimulated increases in Ra and Rv also paralleled the elevation in TxB2 concentration. As with LTC4, the increases in Ppa, Pcap, PVR, and TxB2 concentration were greater in blood-perfused than in Ringer-perfused lungs. Pretreatment with meclofenamate reduced the magnitude of the initial increase in Ppa, but did not prevent the response.(ABSTRACT TRUNCATED AT 250 WORDS)     

Norepinephrine induces lung vascular prostacyclin synthesis via alpha 1-adrenergic receptors

Sympathetic nerve stimulation can cause pulmonary vasoconstriction related to norepinephrine (NE) release. Because of recent reports that NE caused prostacyclin (PGI2) release from systemic arteries, we wondered whether NE caused pulmonary vascular PGI2 release and whether a feedback mechanism existed whereby PGI2 modulated NE-induced vasoconstriction. NE-induced PGI2 synthesis in rat main pulmonary artery rings was larger than that induced by KCl, passive stretch, or a thromboxane analogue, was alpha-adrenergic receptor dependent, and was enhanced by endothelium removal. The NE-induced PGI2 synthesis was not tightly coupled to the magnitude of the pulmonary artery ring contractile response, and inhibition of NE-induced PGI2 production by cyclooxygenase blockade in either the pulmonary artery ring preparation or in isolated rat lungs perfused with a physiological solution did not augment the magnitude of the contractile response. We concluded that NE is a potent stimulus for PGI2 synthesis in the rat main pulmonary artery ring and in the rat lung, yet PGI2 is not important as a modulator of NE-induced vasoconstriction in the rat lung.     

Characterization of leukotriene C4 synthetase in mouse peritoneal exudate cells

Cell lysates of mouse peritoneal macrophages, in the presence of reduced glutathione, converted leukotriene LTA4 to LTC4, and neither LTD4 nor LTE4 was detected. Therefore, like cultured rat basophilic leukemia cells (RBL cells), the peritoneal macrophage contains LTC4 synthetase and appears to contain little, if any, gamma-glutamyl transpeptidase. When LTA4 was added to subcellular fractions of mouse macrophage lysate, the highest specific activity of LTC4 synthetase (nmol LTC4/mg protein per 10 min) was associated with the particulate or membrane fractions (i.e., 10(4) and 10(5) X g pellets). The 10(5) X g supernatant contains approx. 1% of the specific activity and 6% of the total LTC4 synthetase activity compared with that of the 10(5) X g pellet. Conversely, the 10(5) X g supernatant had four-times more specific activity and 19-times more total GSH S-transferase activity than did the 10(5) X g pellet when evaluated using 1-chloro-2,4-dinitrobenzene (DNCB) as the substrate. LTA4 was converted to LTC4 by the membrane enzyme LTC4 synthetase in a dose-dependent manner at low LTA4 concentrations (3-50 microM) and reached a plateau of approx. 30 microM LTA4 using the macrophage 10(5) X g pellet as an enzyme source. The apparent Km value of LTC4 synthetase for LTA4 was estimated to be 5 microM based on Lineweaver-Burk plots. Enzyme in the 10(5) X g supernatant produced negligible quantities of LTC4 (1% or less of the particulate fractions) over a wide range of LTA4 concentrations. However, an enzyme in the 10(5) X g supernatant fraction presumed to be GSH S-transferase effectively catalyzes the conjugation of glutathione (GSH) with the aromatic compound DNCB. The apparent Km value of GSH S-transferase for DNCB was estimated to be 1.0-1.5 mM. On the other hand, enzyme from the membrane fraction (i.e., 10(5) X g pellet) catalyzed this reaction at a negligible rate over a wide range of DNCB concentrations. The apparent Km value of LTC4 synthetase for GSH was estimated to be 0.36 mM and the corresponding Km value estimated for the glutathione S-transferase was 0.25-0.76 mM. These values indicate similar kinetics for GSH utilization by both enzymes. These Km values are also significantly lower than the intracellular GSH levels of 2 to 5 mM. Therefore, it is suggested that the substrate limiting LTC4 synthetase activity is LTA4 and not GSH. Our results indicate that LTC4 synthetase from mouse peritoneal macrophages is a particulate or membrane-bound enzyme, as was reported by Bach et al.(ABSTRACT TRUNCATED AT 400 WORDS)     

Contraction of isolated airway smooth muscle by synthetic leukotrienes C4 and D4

The pharmacology of leukotrienes (LT) C4 and D4 in isolated airway smooth muscle was investigated. In rat trachea, neither LTC4 or D4 elicited a response. In contrast, LTC4 was a potent contractile agonist in guinea-pig trachea, bronchus and parenchymal lung strip. Similar effects were obtained with LTD4 in trachea and parenchyma. In trachea and bronchus, the concentration-response curve to LTC4 was biphasic: indomethacin converted the biphasic response curve to a simple sigmoidal shape and enhanced the maximum contractile response. The SRS-A antagonist FPL 55712 antagonized the effect of LTD4 in both trachea and parenchyma. As regards LTC4-induced contraction of trachea and bronchus, FPL 55712, depending on concentration, either antagonized, or antagonized and enhanced the maximum contractile response. The enhancement of the maximum contractile response by FPL 55712 was not apparent when indomethacin was present. FPL 55712 failed to antagonize the effect of LTC4 in parenchyma.     

Angiotensin converting enzyme inhibitor potentiated the vasorelaxant response of atrial natriuretic peptide in toad aortic rings

1. The vasorelaxant effect of synthetic atrial natriuretic peptide (ANP) on the vascular response to angiotensin II (A II) and norepinephrine (NE) in aortic rings from Bufo arenarum toad was studied. 2. Pretreatment with ANP partially inhibited the vascular response to A II and NE. 3. Angiotensin converting enzyme inhibitor (ACEI) treatment partially inhibited the contractile response of angiotensin I (A I) and did not affect the A II response. 4. The inhibitory effect of ANP on vascular response to A II and NE were potentiated by pretreatment with ACEI. 5. Results suggest that the angiotensin converting enzyme present in the vascular wall from Bufo arenarum toad may be involved in the metabolism of ANP.     

L-641,953 (R-8-fluoro-dibenzo[b, f]thiepin-3-carboxylic acid-5-oxide): a novel thromboxane-prostaglandin endoperoxide antagonist

The effects of L-641,953 (R-8-fluoro-dibenzo[b, f]thiepin-3-carboxylic acid-5-oxide) have been studied on pulmonary and other smooth muscle preparations in vitro and in vivo. When studied in vitro on guinea-pig tracheal chains, L-641,933 produced significant shifts in the dose-response curves to the prostaglandin endoperoxide analogues, U-44069 (pA2 7.06) and U-46619 (pA2 7.14), and prostaglandin (PG) F2 alpha (pA2 6.33) had minimal activity against contractions induced by histamine (pA2 4.38), 5-hydroxytryptamine (pA2 4.63), and acetylcholine (pA2 4.56) and slightly enhanced relaxation induced by PGE2. When tested on the guinea-pig gall bladder strip in vitro, L-641,953 antagonized contractions induced by U-44069 (pA2 7.03) but was less active against those induced by PGF2 alpha (pA2 6.03), PGE1 (pA2 5.62), and histamine (pA2 4.84). When tested in vitro on the guinea-pig pulmonary artery, L-651-953 significantly antagonized contractions induced by U-44069 (pA2 7.04), U-46619 (pA2 7.14), and PGF2 alpha (pA2 7.16) but was less effective against contractions induced by histamine (pA2 4.19). Schild analysis indicated that L-641,953 was fully competitive against contractions of either the guinea-pig tracheal chain induced by U-46619 or the guinea-pig pulmonary artery induced by U-44069 and U-46619. When tested on human platelets in vitro L-641,953 inhibited aggregation induced by U-44069 (IC50 1.3 X 10(-6) M) but not ADP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Modifications evoked by piretanide in the mechanical activity of cardiovascular tissues

The effects of piretanide upon mechanical activity and pharmacological reactivity of vascular and myocardial tissues from normotensive rats were investigated. Magnitude of phasic contractions of isolated rat portal vein was diminished by the drug in a dose-related manner; contractile depression induced by piretanide (10(-4)M) was less in the presence of insulin (0.1 U/mL), glucose (22 mM) or pyruvate (5 mM). Responses to KCl (90 mM), or norepinephrine (2.5 X 10(-5)M) were also reduced. Contractile activity of atria and ventricle strips was diminished only when piretanide reached 10(-4)M. Results support direct actions of piretanide upon cardiac and vascular tissues. Possible mechanisms of action are discussed.     

Differential activity of leukotrienes upon human pulmonary vein and artery

Responses to leukotrienes B₄, C₄, D₄ and E₄ were examined in human pulmonary artery and pulmonary vein preparations from surgical specimens. Leukotrienes C₄ (LTC) and D₄ (LTD) were potent contractants of pulmonary vein over the dose range of 10⁻¹⁰M to 10⁻⁶M, whereas they produced minimal contractions of human pulmonary artery only at concentrations of 10⁻⁸M or greater. Leukotriene E₄ was less potent than LTC or LTD, and leukotriene B₄ (LTB) at concentrations up to 10⁻⁶M had no effect upon either pulmonary veins or pulmonary arteries. Contractions of pulmonary vein by LTD were inhibited in a competitive manner by FPL 55712. Dose response characteristics of LTD and inhibition by FPL 55712 were similar for pulmonary venous and bronchial smooth muscle. We conclude that pulmonary vein smooth muscle has leukotriene receptors comparable to those of bronchial smooth muscle whereas pulmonary artery does not.     

SUN 1165: a new antiarrhythmic Na current blocker in ventricular myocytes of guinea-pig

1. We compared the effect of a new antiarrhythmic compound, SUN 1165, on Na and Ca channels in papillary muscles and enzymatically dispersed single ventricular cells of guinea-pig. Action potential and contractile force in papillary muscle were measured by the conventional microelectrode technique and a strain gauge. The membrane currents were measured in internally perfused and voltage clamped cells by a single suction pipette technique. 2. In papillary muscles, SUN 1165 depressed the maximum rate of rise of action potential (Vmax) in a concentration dependent manner (IC30 = 1.7 X 10(-5) M) more markedly (about six times) than the contractile force. 3. In single ventricular cells, the Na current (INa) was reduced by the drug in a concentration dependent manner (IC30 = 9.1 X 10(-6) M). 4. It showed frequency-dependent block and the steady-state inactivation curve was shifted to more negative potentials. 5. The recovery of INa from inactivation was prolonged by SUN 1165. 6. The Ca current (ICa) was also blocked by the drug in a concentration dependent manner but much less than INa (IC30 = 5.5 X 10(-5) M). 7. These results suggested that SUN 1165 causes a selective inhibition of Na channels in guinea-pig ventricular cells at the antiarrhythmic concentrations.