Lung Metabolism of Eicosanoids: Prostaglandins, Prostacyclin, Thromboxane, and Leukotrienes

Bakhle, Y.S.; Ferreira, S. H.

doi:10.1002/cphy.cp030111

Cited by 17 publications

(14 citation statements)

References 226 publications

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“…In contrast, prostacyclin administered as aerosol is neither transformed into an active form nor metabolized by the lung [26], Although we did not measure dynamic compliance and airway resistance, we observed no change in total static compliance and in plateau airway pres sure during PGU inhalation. Hence, PGU 337 aerosolized at low concentrations appears to act as pulmonary vasodilator without causing side effects (e.g.…”

Section: Discussioncontrasting

confidence: 54%

“…PGH has a rapid onset of action and a short half-life (2-3 min) when infused intravenously. Due to the lack of a carrier mechanism to transfer PGI2 across the cell membrane, it is, unlike most other prosta glandins, not metabolized by the lung and retains its pulmonary vasodilatory properties [26], Therefore, and because of its lack of known toxicity, PGH aerosol was chosen for inhalation.…”

Section: Discussionmentioning

confidence: 99%

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PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

Welte

Zwißler

Habazettl³

et al. 1993

Eur Surg Res

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Intravenous prostacyclin (PGI2) is a potent pulmonary vasodilator in pulmonary hypertension. However, dose-dependent systemic vasodilation, an increase in intrapulmonary shunt and hypoxemia limit its clinical application. Recently, inhaled nitric oxide (NO) has been reported to elicit selective pulmonary vasodilation, but its clinical use is restricted by its potential toxicity; furthermore, the feasibility of NO application in clinical practice seems difficult. Therefore, we investigated the effects of PGI2 aerosol on pulmonary and systemic circulation and compared the hemodynamic effects to those of inhaled NO. In 6 dogs, ventilation with a hypoxic gas mixture (F102 0.09–0.11) increased pulmonary vascular resistance (PVR) by 196% (HPV). Aerosolization of a PGI₂ solution at a concentration of 430 ng/ml reduced hypoxia-induced increase of pulmonary artery pressure by 48% and PVR by 52% within 6-10 min without systemic vasodilation. The administered dose of PGI2 was 0.87 ± 0.26 ng/kg/min. In 2 dogs, doubling the PGI2 concentration (860 ng/ml) did not enhance the vasodilatory effect. After termination of PGI₂ inhalation, HPV was restored within 10–15 min. Inhaled NO (50 ppm) decreased the HPV-induced increase in PAP by 76% and in PVR by 73% within 5-10 min. Clinically relevant systemic vasodilation was not observed. It is concluded that inhalation of aerosolized PGI₂ leads to selective pulmonary vasodilation in hypoxia-induced pulmonary hypertension. Aerosolized PGI₂ at a concentration of 430 ng/ml was less potent than NO (50 ppm). However, due to the lack of known toxicity and its uncomplicated mode of application, inhaled PGI₂ may be one alternative to inhaled NO in the treatment of acute pulmonary hypertension.

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Section: Discussioncontrasting

confidence: 54%

Section: Discussionmentioning

confidence: 99%

PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

Welte

Zwißler

Habazettl³

et al. 1993

Eur Surg Res

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“…The interval between consecutive concentrations did not exceed 10 min. In some experiments, tissues were pretreated for 30 min with either the HI-antagonist mepyramine (10 LM), the H2-antagonist cimetidine (1O gM), the cyclo-oxygenase inhibitor, indomethacin (10 ,UM ;Orehek et al, 1975;Korbut et al, 1981), the NO synthetase inhibitor L-NAME (1 and 5011M; Rees et al, 1990;Tucker et al, 1990) or the prostacyclin synthetase inhibitor tranylcypromine (10IM; Gryglewski et al, 1975;Bakhle & Ferreira, 1985;Ea-Kim et al, 1992). In our model, at these concentrations, the cyclo-oxygenase-, NO synthetase-and prostacyclin synthetase-inhibitors did not modify significantly the baseline pressure when added to the perfusate reservoir.…”

Section: Protocolmentioning

confidence: 99%

Bronchodilatation of guinea‐pig perfused bronchioles induced by the H₃‐receptor for histamine: role of epithelium

Burgaud¹,

Oudart²

1993

British J Pharmacology

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I The influence of epithelium on the effects of H3-histamine receptor agonist (R)a-methylhistamine [(R)a-MeHist] on airways was investigated on the guinea-pig perfused bronchioles. 2 In preparations under resting tone, removal of the bronchiolar epithelium or treatment with the cyclo-oxygenase inhibitor indomethacin (10' M) increased the constriction induced by histamine and acetylcholine in a concentration-dependent manner without an alteration of the K+-induced contraction. 3 In this preparation (R)a-MeHist induced a concentration-dependent bronchodilatation which was antagonized in a competitive manner by thioperamide (an H3-antagonist) with a pA2 value of 8.6. 4 This bronchodilatation was reversed to a low concentration-dependent constriction after either removal of the epithelium or treatment with indomethacin (10-' M) but was unaffected by both 10-5 M tranylcypromine (an inhibitor of PGI2 synthesis) and 5 x 10-5M NG-nitro-L-arginine methyl ester (an inhibitor of NO synthesis).5 It is suggested that, in guinea-pig perfused bronchioles (R)x-MeHist induces an epithelium-dependent relaxation via the release of metabolite(s) of arachidonic acid.

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“…Second, where animal models still must be used, we can now select those species whose phospholipase activities most clearly resemble those in human lung. There are important species differences in the biosynthesis of cyclo-oxygenase products in lung (Bakhle & Ferreira, 1985) and these differences could extend to the phospholipases involved. Both considerations will allow a more accurate analysis of how human lung responds to pathological conditions such as endotoxin shock or immunological challenge and to drug treatments aimed at preventing such responses.…”

Section: Effects Of Ca2 + and Other Cationsmentioning

confidence: 99%

“…The eicosanoids exhibit a wide range of potent biological activities on a variety of cells in the lung and these activities are expressed in both physiological and pathological conditions (Bakhle & Ferreira, 1985). Phospholipase action has also been linked to receptor activation by many different agonists effective in lung (Fain et al, 1988).…”

Section: Introductionmentioning

confidence: 99%

Cationic factors affecting phospholipase activities from human lung

Yeats

Bakhle

1990

British J Pharmacology

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The effects of varying H+ and other cation concentrations on phospholipase activity were investigated on two particulate fractions from human lung, corresponding to the mitochondrial and microsomal fractions. Three 14C‐labelled substrates, arachidonyl‐phosphatidylcholine (PC), ‐phosphatidylethanolamine (PE) and ‐phosphatidylinositol (PI) were used. For two substrates, PE and PI, hydrolysis was maximal at pH 6, with either subcellular fraction. Hydrolysis of all three substrates was strongly inhibited by EDTA and EGTA (10–25 mm). Addition of 2,2‐dipyridyl, o‐phenanthroline, 8‐hydroxyquinoline or desferrioxamine (10 μm‐1 mm) did not inhibit but often increased hydrolysis of all substrates. Addition of Zn2+, as ZnCl2, (10 μm‐1 mm) inhibited PE and PI, but not PC, hydrolysis. The phospholipase activities from human lung appear to be dependent on Ca2+ for maximal activity and to be inhibited by other metal ions including Zn2+.

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Lung Metabolism of Eicosanoids: Prostaglandins, Prostacyclin, Thromboxane, and Leukotrienes

Cited by 17 publications

References 226 publications

PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

Bronchodilatation of guinea‐pig perfused bronchioles induced by the H₃‐receptor for histamine: role of epithelium

Cationic factors affecting phospholipase activities from human lung

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Lung Metabolism of Eicosanoids: Prostaglandins, Prostacyclin, Thromboxane, and Leukotrienes

Cited by 17 publications

References 226 publications

PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

PGI<sub>2</sub> Aerosol versus Nitric Oxide for Selective Pulmonary Vasodilation in Hypoxic Pulmonary Vasoconstriction

Bronchodilatation of guinea‐pig perfused bronchioles induced by the H3‐receptor for histamine: role of epithelium

Cationic factors affecting phospholipase activities from human lung

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Bronchodilatation of guinea‐pig perfused bronchioles induced by the H₃‐receptor for histamine: role of epithelium