The mechanism of action of leukotrienes C4 and D4 in guinea-pig isolated perfused lung and parenchymal strips of guinea pig, rabbit and rat

The biological actions of pure slow-reacting substance of anaphylaxis (SRS-A) from guinea-pig lung, pure slow-reacting substance (SRS) from rat basophilic leukaemia cells (RBL-1) and synthetic leukotrienes C4 (LTC4) and D4 (LTD4) have been investigated on lung tissue from guinea pig, rabbit and rat. In the guinea pig, the leukotrienes released cyclo-oxygenase products from the perfused lung and contracted strips of parenchyma. The effects of SRS-A, SRS and LTD4 were indistinguishable. LTC4 and LTD4 had similar actions although LTD4 was more potent than LTC4. Indomethacin (1 microgram/ml) inhibited the release of cyclo-oxygenase products from perfused guinea-pig lung and caused a marked reduction in contractions of guinea-pig parenchymal strips (GPP) due to LTC4 and LTD4. The residual contraction of the GPP was abolished by FPL 55712 (0.5 - 1.0 microgram/ml). It appears, therefore, that a major part of the constrictor actions of LTC4 and LTD4 in guinea-pig lung are mediated by myotropic cyclo-oxygenase products, i.e. thromboxane A2 (TxA2) and prostaglandins (PGs). In rabbit and rat lung, however, SRS-A, SRS and the leukotrienes were much less potent in contracting parenchymal strips and there was little evidence of the release of cyclo-oxygenase products. FPL 55712 at a concentration of 1 microgram/ml failed to antagonise leukotriene-induced contractions.     

Leukotriene F4: Comparison of its pharmacological profile with that of the other cysteinyl-containing leukotrienes in guinea-pig ileum and lung parenchyma in vitro

The biological effects of leukotriene (LT)F₄ were compared, on a molar basis, with those of LTC₄, LTD₄ and LTE₄ on isolated superfused strips of guinea-pig ileum smooth muscle (GPISM) and lung parenchyma (GPP). LTF₄ was 1–2 orders of magnitude less active than the other leukotrienes on GPISM (LTD₄ > LTC₄ > LTE₄ > LTF₄) whereas, in the GPP, the activity of LTF₄ was comparable with that of LTE₄, both leukotrienes being about one order of magnitude less active than LTC₄ or LTD₄ (LTC₄=LTD₄ > LTE₄=LTF₄). Further, LTF₄ caused protracted contractions of the GPP which were indistinguishable from those due to LTE₄ and of a much longer duration than responses elicited by either LTC₄ or LTD₄.FPL 55712 (1.9μM) antagonised actions of LTF₄ in both tissue preparations. Indomethacin (2.8μM) inhibited contractions induced by LTF₄ in GPP indicating that part of the bronchoconstriction due to LTF₄, like that elicited by the other leukotrienes, is mediated via release of cyclo-oxygenase products.     

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.     

Specificity of receptors for leukotrienes A4, B4, C4, D4, E4 and histamine on the guinea-pig lung parenchyma. Effect of FPL-55712 and desensitization of the myotropic activity

The novel metabolites of arachidonic acid, leukotriene (LT) A₄, B₄, C₄, D₄ and E₄ have potent myotropic activity on guinea-pig lung parenchymal strip . The receptors responsible for their action were characterized using desensitization experiments and the selective SRS-A antagonist, FPL-55712. During the continuous infusion of LTB₄, the tissues became desensitized to LTB₄ but were still responsive to histamine, LTA₄, LTC₄, LTD₄ and LTE₄. When LTD₄ was infused continuously, the lung strips contracted to LTB₄ and histamine but were no longer responsive to LTA₄, LTC₄, LTD₄ and LTE₄. Furthermore, FPL-55712 (10 ng ml⁻¹− 10 ug ml⁻¹) produced dose-dependent inhibitions of LTA₄, LTC₄, LTD₄ and LTE₄ without inhibiting the contraction to LTB₄ and histamine. On the basis of these results, it appears that the guinea-pig lung parenchyma may have one type of receptor for LTB₄ and another for LTD₄; LTA₄, LTC₄ and LTE₄ probably act on the LTD₄ receptor.     

Differing mechanisms for leukotriene D4-induced bronchoconstriction in guinea pigs following intravenous and aerosol administration

Leukotriene D₄ (LTD₄) when administered intravenously or by aerosol to guinea pigs produced changes in pulmonary mechanics including a decrease in dynamic compliance and an increase in pulmonary resistance. The effects of intravenous LTD₄ (0.5 μg kg⁻¹) were short lived and abolished by pretreatment of the animal with either cyclooxygenase inhibitors, a thromboxane synthetase inhibitor (OKY 1555) or an SRS-A antagonist (FPL 55712). These findings suggest that bronchoconstriction produced by the intravenous infusion of LTD₄ at 0.5 μg kg⁻¹ is due to the release of thromboxane A₂. However, in animals treated with indomethacin, LTD₄ at higher doses (>0.8 μg kg⁻¹) still elicited a bronchoconstriction which could be blocked by FPL 557112. Nebulization of 0.1 – 1.0 μg of LTD₄ into the lung produced prolonged changes in pulmonary mechanics which were inhibited by FPL 55712 and were potentiated indomethacin. LTD₄, therefore, when administered by aerosol produced effects on the lung which were not mediated by cyclooxygenase products. Responses to nebulized rather than intravenous LTD₄ in the guinea pig may more closely resemble those seen in human tissues.     

Contractile activities of leukotrienes C4 and D4 on vascular strips from rabbits

Leukotrienes C₄ (LTC₄) and D₄ (LTD₄), major components of slow-reacting substances of anaphylaxis (SRS-A), caused dose-dependent contractions of rabbit coronary arteries in concentrations of 10^?9 to 10^?7 M and 10^?10 to 10^?7 M, respectively. The potency of LTC₄ and LTD₄, when compared with the concentration that elicits half of the contraction induced by 25 mM KCl, was 17 and 76 times, respectively, greater than that of histamine. In contrast, other blood vessels from rabbits were either unresponsive (renal artery and vein, mesenteric artery and thoracic aorta) or only weakly responsive (pulmonary artery and vein and portal vein) to both leukotrienes even at 10^?7 M. The LTD₄-induced coronary contraction was inhibited by FPL 55712 (10^?7 and 10^?6 M), a selective SRS-A inhibitor, in a dose-dependent manner, but not by diphenhydramine (10^?7 M), a histamine H₁-receptor blocker or by indomethacin (10^?5 M), a prostaglandin synthetase inhibitor, suggesting that LTD₄ has a direct effect on the coronary arteries. These results indicate that the leukotrienes may act as potent, selective coronary vasoconstrictors and that SRS-A responsive receptors exist in the rabbit coronary artery.     

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

Leukotrienes D₄ ? C₄ > E₄ ? 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 × 10^?6M) competitive antagonist of LTC₄, LTE₄ and LTF₄ (slope not significantly different from one). The interaction of FPL-55712 with LTD₄ may be noncompetitive (slope < 1). Comparison of the calculated dissociation constants (?log K_B) 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 × 10^?5M) 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 comparison of L-serine borate and glutathione as inhibitors of metabolism of LTC4 to LTD4 by the isolated guinea pig trachea

Cumulative dose-response curyes to leukotriene C₄ (LTC₄) and leukotriene D₄ (LTD)₄ were obtained on indomethacin (5 μM) treated isolated guinea pig tracheal spiral strips. LTC₄ curves, in the presence of either glutathione (GSH; 10 mM) or L-serine borate (SB; 45 mM), were not antagonized by FPL-55712 (3 μM), a selective LTD₄ receptor antagonist. LTC₄ curves on trachea treated with a lower concentration of GSH (1 mM), and LTD₄ curves were competitively antagonized by FPL-55712. LTC, curves on GSH (10 mM) treated trachea were 2 fold to the left of those on SB treated tissues. This effect of GSH was blocked by pretreatment with nordihydro-guiaretic acid (30 μM), an inhibitor of 5-lipoxygenase.GSH (10 μM) and SB (45 mM) are effective inhibitors of conversion of LTC₄ into functionally important levels of LTD₄ by the guinea pig trachea. In addition, GSH appeares to enhance LTC₄ responsiveness by increasing synthesis of a contractile 5-lipoxygenase product(s), possibly LTC₄. From the data it is suggested that for inhibition of LTC₄ metabolism, SB may be more usefull when examining responses to exogenously applied LTC₄, while GSH (10 mM) may be useful when examining responses to endogenously generated LTC₄.     

Pharmacology of peptide leukotrienes on ferret isolated airway smooth muscle

The contractile activities of peptide leukotrienes (LT) on isolated spiral strips of ferret trachea were chracterized pharmacologically. LTC₄ and LTD₄ contracted ferret tracheal strips in a concentration-related manner and were 3- to 8-fold more potent than carbachol. In contrast, high concentrations of LTE₄ evoked either weak contraction or none at all, whereas LTC₄ and D₄ were partial agonists compared to carbachol. In tissues which were unresponsive to LTE₄, this compound antagonized contractile responses to LTC₄ and D₄ in an apparently competitive manner: Carbachol-induced contractions were not altered by LTE₄. The cyclooxygenase inhibitor, indomethacin (5 μM), LT antagonists, FPL55712 (10 μM), atropine (1 μM), phenoxybenzamine (10 μM), and LTB₄ (10 μM) failed to alter LTC₄ and D₄ concentration-response curves. The results in dicate that ferret trachea is sensitive to the contractile activity of LTC₄ and LTD₄ but not LTE₄. The LT-induced contractions appear to be mediated by a direct action of the LT rather than indirectly through release of secondary mediators such as thromboxane, prostaglandin, or acetylcholine. LT receptors in ferret trachea are insensitive to FPL55712 but are antagonized by LTE₄.     

Detection of leukotriene C4 and D4 in the exudate of rat carrageenin-induced pleurisy

Rat carrageenin-induced pleurisy was used as an acute exudative inflammatory model. The crude ethanol extract of the pleural fluid at 5 hr after carrageenin injection caused the very slow contraction of guinea-pig ileum, which was antagonized by FPL 55712 (1 μg/ml). The ethanol extract was cleaned by LH-20 and was rendered for separation of LTC₄ and LTD₄ by reversed-phase high-performance liquid chromatography (HPLC). Two peaks which showed the same retention time on HPLC as those of LTC₄ and LTD₄ had the contractile activity of guinea-pig ileum and the ratios of the contractile activity to the height on HPLC agreed with those of synthetic LTC₄ and LTD₄. Two peaks of Δ⁶-trans-LTB₄, 5S,12R-(E,E,E,Z)-diHETE and 5S, 12S-(E,E,E,Z)-diHETE, were detected, but the appreciable amount of LTB₄ was smaller than that of each Δ⁶-trans-LTB₄ in the pleural fluid at 5 hr.     

Antagonism by ETYA of the effects of leukotrienes on ileum and lung parenchymal strips independent of effects on arachidonic acid metabolism

5,8,11,14-Eicosatetraynoic acid (ETYA), a compound which inhibits both the cyclooxygenase and lipoxygenase pathways of arachidonic acid metabolism, antagonized the contraction of segments of guinea-pig ileal longitudinal muscle produced by SRS-A (IC₅₀ = 2.73 μM). This activity was unaffected by pretreatment of the tissues with 10 μM indomethacin. Phenidone, another mixed cyclooxgenese-lipoxygenese inhibitor, was inactive. FPL-55712, an SRS-A antagonist, was a very potent inhibitor (IC₅₀ = 0.011 μM).BW755C and NDGA nonselectively inhibited the contractions of the guinea-pig ileal longitudinal muscle induced by SRS-A or histamine.ETYA antagonized the contraction of the guinea-pig ileal strip produced by 6 nM synthetic LTC₄ (IC₅₀ = 9.3 μM). FPL-55712 demonstrated an IC₅₀ of 0.3 μM in a similar series of experiments. ETYA, 1, 3 or 10 μM did not inhibit the contractions elicited by 0.5 μM of histamine.This was not a tissue-selective effect since 100 μM ETYA antagonized the LTC₄-induced contraction of the guinea-pig lung parenchymal strip preparation.These data demonstrate that ETYA antagonized the contractile effect of the leukotrienes on tissues from the gastrointestinal tract and lung. Furthermore, the inability of indomethacin or phenidone to inhibit the contractile response suggests that antagonism by ETYA may occur by a mechanism independent of cyclooxygenase and lipoxygenase enzymes.     

The combined use of isolated strips of guinea-pig lung parenchyma and ileum as a sensitive and selective bioassay for leukotriene B4

The biological effects of leukotriene (LT)B₄ were compared, on a molar basis, with those LTC₄, LTD₄, LTE₄, 5-hydroxyeicosatetraenoic acid (5-HETE), PGD₂, PGE₁, PGF_2α, PGI₂, 6-oxo-PGF_1α, bradykinin (BK) and angiotensin II (Ang II) on isolated strips of guinea-pig lung parenchyma (GPP) and ileum smooth muscle (GPISM) superfused in series.LTB₄ similar to LTC₄ and LTD₄ on GPP, in relation to potency and contractions induced, but differed from LTE₄ in being ten times more active and causing contractions of a much shorter duration of action on this tissue. However, unlike the other LTs, LTB₄ produced contractions which were resistant to FPL 55712 (1.9μM) and, when given repeatedly, caused tachyphylaxis in GPP,LTB₄ was considerable more active on GPP than the other substances investigated. Further, PGD₂, PGF_2α and PGI₂ contracted GPP, the order of potency being PGD₂ > PGF_2α ? PGI₂ whereas PGE₁ and PGE₂ relaxed this tissue. In contrast to all other agonists tested which contracted GPISM, LTD₄ displaying the highest activity, LTB₄ was inactive on this tissue. 5-HETE and 6-oxo-PGF_1α were inactive on both GPP and GPISM.On the basis of differential effects of LTB₄ on GPP and GPISM, this assay repressents a simple and selective means to distinguish LTB₄-like materials from other naturally-occuring substances likely to be generated in inflammatory fluids.     

The modulatory effects of leukotrienes C4 and D4 on methacholine- and substance P-induced salivary secretion in rats

Although certain prostaglandins have been found to be inhibitory to nerve-evoked salivary flow, little is known of the effects the leukotrienes on salivary secretion. It was the purpose of this investigation to examine the effects of leukotrienes C₄ (LTC₄) and D₄ (LtD₄) on salivary secretion in the rat, using methacholine or substance P to induce basal secretion, and to test whether or not the observed effects of these eicosanoids were receptor-mediated by using the leukotriene receptor blocker FPL-55712.Methacholine (3 × 10⁻⁴ M), or substance P (1 × 10⁻⁶ M) was infused intra-arterially to stimulate secretion and saliva was collected separately from the parotid gland and the submandibular gland of anesthetized rats. LTC₄ and LTD₄ (each at 1 × 10⁻⁹ to 1 × 10⁻⁶ M) were found to reduce methacholine- and substance P-induced salivary flow in a dose-related manner. Salivary protein concentration and amylase activity were not significantly altered by the leukotrienes; however, arginine-esterase activity, stimulated by substance P, was increased by both leukotrienes. FPL-55712 (1 × 10⁻⁸ M) was shown to reduced the inhibitory effects of LTC₄ and LTD₄, suggesting the involvement of leukotriene receptors for these agents in their action.     

Contraction of guinea pig gail bladder strips by leukotrienes and other agonists

In the presence of indomethacin, Leukotriene C₄ (LTC₄), LTD₄ and LTE₄ were shown to be contractile agents on guinea pig gall bladder strips. The respective pD₂ values for LTC₄, LTD₄ ad LTE₄ were 9.1, 9.1 and 7.7. The contractile effects of LTD₄ were not mediated through the generation of cyclooxygenase products and were antagonized by the SRS-A antagonist FPL-55712. The effects of PGE₁, PGF_2α, the endoperoxide analogue U44069 and histamine on gall bladder strips were also examined. All these agents caused dose-related contractions but were considerably less potent than the leukotrienes. Leukotrienes are therefore potent contractile agents on the guinea pig gall bladder and may contribute to gall bladder contractions or spasms .     

Quantitation of luekotrienes C4, D4 amd E4 released by pathophysiological stimuli

In order to examine the modulation of leukotriene (LT) release, the PAF-acether-mediated stimulation of these compounds in rat lung was studied. Release of LTC₄, LTD₄ and LTE₄ in both perfused and chopped lung preparations was measured using HPLC and radioimmunoassay. Pre-incubation or pre-infusion of the tissue with indomethacin and PGE₂ was conducted to investigate the effect of cyclooxygenase inhibitors and products on the lipoxygenase pathway. In addition, the effects of LT levels of pre-incubation with vasoactive intenstinal polypeptide (VIP) in chopped lung were observed.In perfused rat lung, indomethacin reduced the levels of LTC₄ relative to LTD₄ as measured in the first 2 min after stimulation of the lung by PAF-acether. Chopped lung preparations, incubated for 15 min. exhibited higher levels of LTC₄ and LTD₄ in indomethacin-treated samples, this increases being effectively reversed by PGE₂.In the VIP pre-incubation experiments clear inhibition of peptido -leukotriene synthesis was observed, with no LTC₄ and only low levels of LTD₄ and LTE₄ observed in VIP-incubated samples. In preliminary experiments using rabbit C5a des arg and PAF-acether on rabbit lung parenchyma strips to stimulaet LT release, disodium cromoglycate pre-incubation was observed to inhibit this release.Inhibition of the 5-lipoxygenase pathway of PGE₂ is supported by these experiments. VIP appears to act as an inhibitor of LTC₄ and LTD₄ biosynthesis or release in this model. Too little is known that peptidergic actions to postulate a mechanism by which a neuroendocrine peptide exerts control of release of arachidonate metabolites; however, VIP is associated with muscarinic stimulation (1) and has been found in mast cells (2).     

Binding sites for H-LTC4 in membranes from guinea pig ileal longitudinal muscle

Leukotriene (LTC₄) is one of the components of Slow Reacting Substance of Anaphylaxis (SRS-A) and is a potent constrictor of guinea pig ilea. The contraction is likely to be a receptor-mediated process. Here we report the existence of specific binding sites for ³H-LTC₄ in a crude membrane preparation from guinea pig ileal longitudinal muscle.At 4°C in the presence of 20 mM Serine-borate, binding increases linearly with protein concentration, reaches equilibrium in 10 minutes, and is reversible upon addition of 3 × 10⁻⁵M unlabelled LTC₄. The dissociation curve is consistent with the existence of more than one class of binding site. Ca⁺⁺ and Mg⁺⁺ greatly enhance the binding of ³H-LTC₄ at equilibrium. In the presence of 5mM CaCl₂ and MgCl₂ not only LTC₄ (IC₅₀ 10⁻⁷M), but also LTD₄ (albeit with much lower affinity, IC₅₀ = 6 × 10⁻5M) and the SRS-A antagonist FPL 55712 (IC₅₀ = 10⁻⁵M) can compete with ³H-LTC₄ for its binding sites. FPL 55712 only displaces 60–70% of the total amount bound, while LTC₄ displaces 90–95%.These studies indicate that multiple classes of binding sites exist for ³H-LTC₄ in guinea pig ileal longitudinal muscle, and that at least part of these binding sites might be related to the ability of LTC₄ to contract guinea pig ilea.     

Characterization of specific receptors for leukotriene D4 on human alveolar macrophages

Using ³H-leukotriene D₄, a specific receptor assay has been developed for human alveolar macrophages, obtained by broncho-alveolar lavage of patients undergoing fiberoptic bronchoscopy because of suspected bronchial carcinomaa. Lavage was performed in a carcinoma-free lobe of the lung and alveolar macrophages were subsequently isolated and incubated for binding studies. ³H-Leukotriene D₄ was found to bind specifically with high affinity (K_d = 3.8 nM), in a saturable manner (B_max = 90 fmol/10⁶ cells), reversible and selective. Specific binding was linear with protein concentration and equilibrium binding at 4°C was reached at 50 min. Scatchard and Hill analysis revealed a single class of binding sites with no cooperativity among the sites. displacement studies with LTD₄, the selective SRS-A antagonist FPL 55712 and with leukotriene C₄ revealed respective K_i values of 3.4; 16; and 110 nM. The data suggest that human alveolar macrophages may contain a specific receptor type for LTD₄, which has a relatively low affinity for LTC₄, and are discussed in relation to modulatory processes in the lung, apart from direct actions of LTD₄ on smooth muscle receptors. From the data here acquired, it may be apparent that the study of characteristics of receptors specific for a broncho-active substance like LTD₄ on huma alveolar macrophages, which play an important role in immuno-inflammatory processes seen in many chronic lung diseases, may yield major insights into the pathogenesis and therapy decisions involved in these diseases.     

Inhibitory effects of a lipoxygenase inhibitor nordihydroguaiaretic acid on antagonism of leukotriene C4-induced contractions of isolated guinea-pig trachea

We have studied the effects of a lipoxygenase inhibitor nordihydroguaiaretic acid (NDGA) on antagonim of leukotriene (LT) C₄-induced contractions of isolated guinea-pig trachea and the results were compared to that of a cycloocygenase inhibitor indomethacin, NDGA (30 μM) as well as idomethacin (5 μM) inhibited LTC₄-iduced contraction. But in the presence of indomethacin NDGA was ineffective to inhibit the LTC₄ response, whereas two other lipoxygenase inhibitors, phenidone (3–30 μM) and 5,8,11,14-eicostatetraynoic acid (ETYA, 10 μM), markedly inhibited it. The antagonist action of an LTD₄ receptor antagonist FPL55712 against LTC₄-induced contractions was significantly reduced by NDGA (10–30 μM), but indomethacin had no effect on it. NDGA possessed the same inhibitory effect n the LTC₄ antagonism in the presence of indomethacin, but 0.3 μM phenidone and 1 μM ETYA which did not inhibit the LTC₄ response had no effect on it. NDGA also inhibited the relaxant response of isoproterenol on the contraction elicited by 30 nM LTC₄, but did not affect those of forskolin and aminophylline. The relaxant response of isoproterenol on the LCT₄ response was not inhibited by indomethacin, 0.3 μM phenidone and 1 μM ETYA. In the presence of a γ-glutamyltranspeptidase inhibitor, L-serine borate (SB, 45 mM), NDGA had no effect on the LTC₄ antagonism and the relaxant response of isoproterenol. In contrast, NDGA significantly inhibited the relaxant response of isoproterenol on 30 μM histamine- and 30 μM acetylcholine-induced contractions, but it did not affect the histamine antagonism by a histamine H₁-blocker pyrilamine. These results suggest that some putative nonprostanoids are involved in LTC₄-induced contractions of guinea-pig trachea and which regulate the effects of LTD₄ antagonism and β-adrenoceptor activation.     

Binding sites for 3H-LTC4 in membranes from guinea pig ileal longitudinal muscle

Leukotriene (LTC₄) is one of the components of Slow Reacting Substance of Anaphylaxis (SRS-A) and is a potent constrictor of guinea pig ilea. The contraction is likely to be a receptor-mediated process. Here we report the existence of specific binding sites for ³H-LTC₄ in a crude membrane preparation from guinea pig ileal longitudinal muscle.At 4°C in the presence of 20 mM Serine-borate, binding increases linearly with protein concentration, reaches equilibrium in 10 minutes, and is reversible upon addition of 3 × 10^?5M unlabelled LTC₄. The dissociation curve is consistent with the existence of more than one class of binding site. Ca⁺⁺ and Mg⁺⁺ greatly enhance the binding of ³H-LTC₄ at equilibrium. In the presence of 5mM CaCl₂ and MgCl₂ not only LTC₄ (IC₅₀ 10^?7M), but also LTD₄ (albeit with much lower affinity, IC₅₀ = 6 × 10^?5M) and the SRS-A antagonist FPL 55712 (IC₅₀ = 10^?5M) can compete with ³H-LTC₄ for its binding sites. FPL 55712 only displaces 60–70% of the total amount bound, while LTC₄ displaces 90–95%.These studies indicate that multiple classes of binding sites exist for ³H-LTC₄ in guinea pig ileal longitudinal muscle, and that at least part of these binding sites might be related to the ability of LTC₄ to contract guinea pig ilea.     

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 μg) increased perfusion pressure in a dose-related fashion. Vasoconstrictor responses to LTC₄ 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.