A comparison of the effects of aspirin and histamine of fluid balance in the recruited lung

Salicylate administration has been reported to increase the flow of protein-rich lymph from the lungs of animals, however, the mechanism of this response is unclear. In the present study we measured pulmonary hemodynamics and lung fluid and protein flux in anesthetized sheep, surgically prepared for the collection of lung lymph, in order to examine the possible effect of aspirin (ASP) on lung vascular permeability. ASP was given during recruitment of pulmonary microvascular surface area induced by sustained elevation of left atrial pressure (Pla) (Group 1) or continuous infusion of adenosine triphosphate (ATP) (Group 2). We compared the results of ASP administration to those found in similarly prepared animals given histamine (H) during like periods of increased Pla (Group 3) or ATP infusion (Group 4). ASP administration resulted in increased lymphatic protein clearance (Cp) in both Groups 1 and 2. In Group 1, following the characteristic increase in lung lymph flow (Q1) and fall in the ratio of lung lymph to plasma protein concentration (L/P) produced by Pla elevation, ASP administration resulted in a further increase in Q1 and a significant increase in L/P. The results found in ASP animals are qualitatively similar to those observed in Groups 3 and 4 after H. While we cannot specifically rule out a hemodynamic effect of the drug, our results suggest the increased protein flux observed following ASP administration was mediated at least in part through an increase in lung microvascular permeability.     

A comparison of the effects of aspirin and histamine on fluid balance in the recruited lung

Salicylate administration has been reported to increase the flow of protein-rich lymph from lungs of animals, however, the mechanism of this response is unclear. In the present study we measured pulmonary hemodynamics and lung fluid and lung fluid and protein flux in anesthetized sheep, surgically prepared for the collection of lung lymph, in order to examine the possible effect of aspirin (ASP) on lung vascular permeability. ASP was given during recruitment of pulmonary microvascular surface area induced by sustained elevation of left atrial pressure (Pla) (Group 1) or continuous infusion of adenosine triphosphate (ATP) (Group 2). We compared the results of ASP administration to those found in similarly prepared animals given histamine (H) during like periods of increased Pla (Group 3) or ATP infusion (Group 4). ASP administration resulted in increased lymphatic protein clearance (Cp) in both Groups 1 and 2. In Group 1, following the characteristic increase in lung lymph flow (Q1) and fall in the ratio of lung lymph to plasma protein concentration (L/P) produced by Pla elevation, ASP administration resulted in a further increase in Q1 and a significant increase in L/P. The results found in ASP animals are qualitatively similar to those observed in Groups 3 and 4 after H. While we cannot specifically rule out a hemodynamic effect of the drug, our results suggest the increased protein flux observed following ASP administration was mediated at least in part through and increase in lung microvascular permeability.     

Thromboxane synthase inhibition and cardiopulmonary function during endotoxemia in sheep.

We studied the cardiopulmonary response to endotoxin (lipopolysaccharide, LPS) in sheep with and without the administration of a thromboxane synthase inhibitor, OKY-046. The animals were instrumented for crystalographic dimension analysis of the left ventricle (LV) and for measurement of LV, aortic, left atrial, and pulmonary arterial pressures and cardiac index, as well as lung lymph flow. They received 1.0 micrograms/kg of Escherichia coli LPS with (n = 8) and without (n = 8) OKY-046 (10 mg/kg bolus, then 10 micrograms.kg-1.min-1). OKY-046 prevented the increase of pulmonary arterial pressure and the decrease of cardiac index that occurred during the early phase of endotoxemia. Between 8 and 12 h after LPS, cardiac index increased from 6.8 +/- 0.7 to 8.9 +/- 0.51.min-1.m-2. Concomitantly, the end-systolic pressure-diameter relationship (ESPDR, sensitive myocardial contractility index) significantly decreased from 14.7 +/- 0.6 to 7.7 +/- 0.7. Other indexes of the LV contractility (+dP/dtmax) were also reduced. OKY-046 prevented the decreases of ESPDR and +dP/dtmax. OKY-046 also attenuated the increased lung lymph flow changes seen with LPS.     

Effect of endotoxin on diaphragm lymph contamination in unanesthetized sheep

The preparation for collecting lung lymph from sheep caudal mediastinal lymph node (CMN) efferent vessels is widely used to study the effects of endotoxin on lung microvascular permeability. However, there are nonpulmonary lymph vessels that drain into the CMN along with the afferent lymph vessels from the lung. Thus CMN lymph is a mixture of lymph from the lung and diaphragm lymph vessels as well as from other nonpulmonary lymph vessels. We studied the effect of 0.5-1.0 microgram/kg Escherichia coli endotoxin on the flow rates in diaphragm and CMN efferent lymph vessels (Qdi and QCMN, respectively) in unanesthetized sheep. For the time period between 2 and 5.5 h after endotoxin QCMN was increased from its base line of 7.2 +/- 4.4 (SD) to 17.3 +/- 10.6 ml/h and the lymph-to-plasma protein concentration ratio (L/PCMN) had increased from 0.68 +/- 0.11 to 0.81 +/- 0.06. During the same time period, Qdi was 4.5 +/- 3.1 ml/h compared with 1.0 +/- 0.8 ml/h at base line and the diaphragm lymph-to-plasma protein concentration ratio (L/Pdi) was 0.92 +/- 0.07 (base line = 0.74 +/- 0.15). The increases in flow rate and protein concentration were significant for each type of vessel (P less than 0.05). We conclude that the period of increased QCMN and L/PCMN after endotoxin is associated with an increase in Qdi and L/Pdi. Thus, it is difficult to determine how much of the CMN lymph response comes from the lungs and how much comes from diaphragm lymph vessels.     

Verapamil attenuates lung vascular responses to endotoxin in sheep

Experiments were conducted on five chronically instrumented unanesthetized sheep to determine the effects of verapamil, a calcium channel inhibitor, on the pulmonary hemodynamic and microvascular permeability responses to endotoxemia. Paired control endotoxemia experiments (E) and endotoxemia with verapamil treatment (30-60 micrograms.kg-1.min-1) experiments (V + E) were conducted on each sheep in random order. In the V + E experiments sheep were pretreated with a continuous intravenous infusion of verapamil 1.5-2.0 h before endotoxin infusion (1.0 microgram/kg, given over 15 min). Verapamil significantly increased base-line pulmonary arterial pressure, left atrial pressure, lung lymph flow rate, and circulating blood leukocyte levels and significantly decreased base-line cardiac output. During the endotoxin response, verapamil significantly attenuated both phase I pulmonary arterial hypertension and phase II lung lymph flow rate compared with control endotoxin experiments. The results indicate that verapamil attenuates both the pulmonary hemodynamic and increased lung microvascular permeability response to endotoxin in sheep. In a series of in vitro experiments, verapamil was found to be a potent inhibitor of phorbol myristate acetate-induced superoxide production in isolated sheep granulocytes. These data suggest that the beneficial in vivo effects of verapamil during endotoxemia may in part be due to its inhibition of increased free cytosol calcium concentration and/or inhibition of toxic O2 metabolite production.     

Diethylcarbamazine on pulmonary vascular response to endotoxin in awake sheep

Diethylcarbamazine (DEC) is an inhibitor of lipoxygenase, with protective effects in several experimental models of anaphylaxis and lung dysfunction. The hypothesis of this study was that DEC would alter the pulmonary response to endotoxin infusion, especially the prolonged pulmonary hypertension, leukopenia, hypoxemia, and high flow of protein-rich lung lymph. We prepared sheep for chronic measurements of hemodynamics and collection of lung lymph. In paired studies we gave six sheep endotoxin (0.5 micrograms/kg iv) either with or without DEC. DEC was given (80-100 mg/kg iv) over 30 min followed by a continuous infusion at 1 mg X kg-1 X min-1. Endotoxin was given after the loading infusion of DEC, and variables were monitored for 4 h. The response to endotoxin was characterized by pulmonary hypertension, leukopenia, hypoxemia, and elevations of thromboxane B2 and 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha). Lymph flow and protein content reflected hemodynamic and permeability changes in the pulmonary circulation. DEC did not significantly modify the response to endotoxin by any measured variable, including pulmonary arterial and left atrial pressures, cardiac output, lymph flow and protein content, alveolar-to-arterial PO2 difference, blood leukocyte count, and lymph thromboxane B2 and 6-keto-PGF1 alpha. We could not find evidence of release of leukotriene C4/D4 by radioimmunoassay in lung lymph after endotoxin infusion with or without DEC treatment. We conclude that lipoxygenase products of arachidonic acid may not be a major component of the pulmonary vascular response to endotoxin.     

Effect of intravenous catalase on the pulmonary vascular response to endotoxemia in goats

Neutrophils have been implicated in the pathogenesis of acute lung injury associated with clinical and experimental sepsis. Data from in vitro systems and experimental animals have suggested that neutrophil-derived oxidants, particularly H2O2, may be primarily responsible for endothelial damage, vasoconstriction, and lung edema. With the use of endotoxin infusion as an in vivo model of sepsis we tested the hypothesis that pretreatment with catalase, a peroxide scavenger, would ameliorate the resultant changes in pulmonary vasoconstriction and lung fluid balance. Paired experiments were performed in 16 goats with chronic lung lymph fistulas. One group of animals (n = 7) received endotoxin first alone and then again, several days later, after pretreatment with Ficoll-linked catalase. As a control, identical experiments were performed in a separate group (n = 6) with Ficoll-linked albumin substituted for Ficoll-catalase. A third group (n = 3) was given endotoxin alone and then again during a continuous infusion of catalase. Plasma and lymph levels of catalase were comparable to or exceeded those previously shown to be completely protective in isolated perfused lung preparations and in vitro systems. Endotoxin caused neutropenia, pulmonary arterial hypertension, decreased cardiac output, and increases in lymph flow to approximately three times base line, with a return of all variables toward control values by 6 h. Catalase pretreatment produced no significant differences in any of these variables. These experiments do not support a role for H2O2 as a mediator of acute lung injury due to endotoxemia.     

Effects of increased ventilation on lung lymph flow in unanesthetized sheep

To determine the effect of an increase in spontaneous minute ventilation on lung fluid balance, we added external dead space to the breathing circuit of six tracheostomized, unanesthetized, spontaneously breathing sheep in which lung lymph fistulas had been created surgically. The addition of 120-180 ml of dead space caused minute ventilation to increase by 50-100% (secondary to increases in both tidal volume and frequency), without changing pulmonary arterial pressure, pulmonary capillary wedge pressure, cardiac output, or arterial blood gas tensions. The increase in spontaneous ventilation was associated with an average increase of 27% in lung lymph flow (P less than 0.05) and an average reduction of 11% in the lymph-to-plasma concentration ratio (L/P) for total protein (P less than 0.05). Lymph flow and L/P for total protein approached stable values after 2-3 h of hyperpnea, and the increase in lymph flow persisted for at least 18 h of dead-space breathing. Removal of dead space was associated with a rapid return (within 45 min) of lymph flow to base-line levels. These results suggest that hyperpnea increases the pulmonary transvascular filtration rate. Since no changes in vascular pressures or cardiac output were observed, this increase in transvascular filtration is most likely due to a fall in interstitial fluid pressure.     

Endotoxemia produces an increase in arterial but not venous lipid peroxides in sheep

Our purpose was to determine the effect of an endotoxin-induced lung injury on circulating lipid peroxides. We measured both malondialdehyde (MDA) and conjugated dienes (as optical density at 233 nm) in aortic and venous plasma and lung lymph in 10 unanesthetized sheep given 1 microgram/kg of Escherichia coli endotoxin. Total lipids and prostanoids 6-ketoprostaglandin F1 alpha and thromboxane B2 were also measured. Six control sheep were also studied. Animals were monitored for a 12-h period and then killed, and lung tissue MDA was determined. A two-phase endotoxin response was noted with an initial pulmonary hypertension followed by a steady-state increase in protein-rich lung lymph flow (QL) between a 3- and 6-h period. Aortic plasma MDA was significantly increased from a base line of 4.8 +/- 1.4 to 8.9 +/- 1.6 and 7.5 +/- 1.3 nmol/ml at 1 and 4 h post-endotoxin. Aortic plasma conjugated dienes increased in all 10 sheep post-endotoxin. Venous levels of both MDA and conjugated dienes were not significantly increased. Lung QL increased two- to three-fold. Lung lymph MDA increased significantly at 1 h post-endotoxin. Lymph conjugated dienes decreased. Plasma and lymph lipid peroxide levels returned to base line by 12 h in most animals. However, tissue MDA remained significantly increased in all sheep from base line of 45 +/- 9 to 85 +/- 14 nmol/g tissue. We conclude that both MDA and conjugated dienes are transiently released into aortic plasma during endotoxin-induced oxidant lung injury.(ABSTRACT TRUNCATED AT 250 WORDS)     

Increasing duration of smoke exposure induces more severe lung injury in sheep

Eighteen sheep previously prepared for chronic study were divided into three groups of six animals each. These were given graded inhalation injury utilizing smoke obtained from burning cotton-toweling material. Smoke was insufflated into animals with a modified bee smoker at temperatures less than 40 degrees C. Group H, which received 64 breaths of smoke, showed the most pronounced changes in pulmonary function. The changes consisted mainly of a profound increase in lung lymph flow following a reduced P/F ratio (PO2 in arterial blood/inspired O2 fraction) and an elevation in both thermal and gravimetrically measured extravascular lung water. Similar changes were seen in group M (48 breaths of smoke) and group L (32 breaths of smoke). However, the injury was graded based on the changes in gravimetrically measured lung water and lung lymph flow. These were highest in group H and lowest in group L. These studies confirm our ability to accurately quantitate the injury induced by smoke inhalation. In addition, it demonstrates that lung injury associated with the inhalation of smoke can be graded depending on the duration of exposure.     

Plasma fibronectin therapy and lung protein clearance with bacteremia after surgery

Plasma fibronectin modulates macrophage phagocytic function and can also incorporate into the insoluble tissue pool of fibronectin where it influences endothelial cell adhesion and tissue integrity. We studied the effect of postoperative bacteremia on lung protein clearance in relation to plasma fibronectin levels using the unanesthetized sheep lung lymph fistula model and the effect of infusion of purified human plasma fibronectin on lung protein clearance. Sheep received live Pseudomonas aeruginosa (5 X 10(8) iv) at a time of normal plasma fibronectin (590 +/- 37 micrograms/ml) or 5 days later at a time corresponding to elevation of plasma fibronectin (921 +/- 114 micrograms/ml). After the first bacterial challenge, there was a 22% decrease (P less than 0.05) in plasma fibronectin. Lung lymph flow (QL) initially increased 308% (P less than 0.05) by 2 h (0 h = 4.7 +/- 1.1 ml/h; 2 h = 14.4 +/- 3.5 ml/h), and the total protein lymph-to-plasma concentration ratio (L/P) declined. This was followed by a sustained second phase response over 3-12 h which was characterized by a 202-393% elevation in QL (P less than 0.05), an increase in the L/P ratio, and a 240-480% (P less than 0.05) increase in lung transvascular protein clearance (TVPC = QL X L/P). Sheep with elevated fibronectin levels also manifested the early (2 h) elevation in QL (P less than 0.05) coupled with a decline in L/P ratio after the second bacterial challenge, but the second-phase increase in TVPC was markedly attenuated. Intravenous infusion of 500 mg of human plasma fibronectin into normal sheep to elevate the fibronectin level comparable to that in the hyperfibronectinemic sheep also attenuated (P less than 0.05) the second-phase (3-12 h) increase in lung protein clearance with sepsis. Thus elevation of plasma fibronectin during postoperative Gram-negative bacteremia may protect the lung vascular barrier. This response may be mediated by either fibronectin's opsonic support of phagocytic function or its influence on lung endothelial cell adhesion.     

Role of sulfidopeptide leukotrienes in synthetic smoke inhalation injury in sheep

Acute lung injury with smoke inhalation results in significant morbidity and mortality. Previously we have shown that synthetic smoke composed of carbon and acrolein, a common component of smoke, causes delayed-onset noncardiogenic pulmonary edema. To study the possible role of the vasoactive and edemagenic sulfidopeptide leukotrienes (SPLT) in smoke inhalation injury, we measured pulmonary hemodynamics, lung lymph flow, and SPLT and leukotriene (LT) B4 in lung lymph before and after 10 min of synthetic acrolein smoke exposure. After smoke exposure there was a significant rise in pulmonary vascular resistance caused by a rise in pulmonary arterial pressure, a fall in cardiac output, and no change in pulmonary capillary wedge pressure. This was accompanied by an increase in total systemic vascular resistance (P less than 0.05), lung lymph flow (P less than 0.05), and extravascular lung water-to-lung dry weight ratio (P less than 0.05). Both SPLT and LTB4 clearance rose significantly (P less than 0.05), but there was a 10-fold increase in SPLT over LTB4 clearance. In sheep pretreated with FPL55712, a SPLT antagonist, the early rise in pulmonary vascular resistance was attenuated, and the rise in systemic vascular resistance was blocked. This was associated with an attenuated and delayed fall in cardiac output. FPL55712 had no effect on lung lymph flow or extravascular lung water-to-dry weight ratio. SPLT, and especially LTD4, may have a role in increased pulmonary and systemic vascular resistance after smoke inhalation injury but does not appear to affect vascular permeability.     

Protection against hyperoxia by serum from endotoxin treated rats: absence of superoxide dismutase induction

Endotoxin greatly reduces lung injury and pleural effusions in adult rats exposed to normobaric hyperoxia (greater than 98% oxygen for 60 hours). This study reports that serum from endotoxin treated donor rats protects serum recipients against hyperoxic lung injury without altering lung superoxide dismutase (SOD) activity. Rats pretreated with endotoxin alone were protected and exhibited an increase in lung SOD activity as previously reported by others. Protection by serum was not due to the transfer of residual endotoxin or SOD. These results show that protection from oxygen toxicity can occur in rats without an increase in lung SOD and suggest that a serum factor may be involved.     

Prostaglandin E2 attenuation of sheep lung responses to endotoxin

Prostaglandin (PG) E2 can inhibit inflammatory responses of neutrophils and lymphocytes, including eicosanoid release. Diffuse lung injury after endotoxemia in sheep is accompanied by sequestration of neutrophils and lymphocytes in the lungs, and eicosanoids mediate some of the pathophysiology of the response. To determine whether exogenous PGE2 could prevent the endotoxin response, we measured pulmonary hemodynamics, gas exchange, and lung lymph responses to infusion of Escherichia coli endotoxin (0.5 micrograms/kg iv over 30 min) in unanesthetized sheep in the presence and absence of PGE2 (0.5 micrograms.kg-1.min-1) infused intravenously for 4 h beginning 0.5 h before endotoxin infusion. We also measured lung lymph concentrations of thromboxane B2 (TxB2) and prostacyclin metabolite, 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha), by radioimmunoassay and leukotriene B4 (LTB4) by gas chromatography-mass spectrometry. PGE2 decreased endotoxin-induced pulmonary hypertension and hypoxemia and markedly attenuated the lymph flow and lymph protein clearance responses. PGE2 also attenuated endotoxin-induced increases in lung lymph TxB2 and 6-keto-PGF1 alpha and decreased lymph LTB4 flow after endotoxin without decreasing lymph LTB4 concentrations. We conclude that PGE2 infusion attenuates lung dysfunction caused by endotoxemia, possibly by preventing endogenous release of other eicosanoids.     

Lymph flow and lung weight in isolated sheep lungs

To study the relationship between lung weight and lymph flow, we used an in situ, isolated sheep lung preparation that allowed these two variables to be measured simultaneously. All lungs were perfused for 4.5 h at a constant rate of 100 ml X min-1 X kg-1. In control lungs, the left atrial pressure (Pla) was kept at atmospheric pressure. In experimental lungs, Pla was kept atmospheric except for a 50-min elevation to 18 mmHg midway through the perfusion. During this period of left atrial hypertension, pulmonary arterial pressure rose from 18 to 31 mmHg, lymph flow rose from 3 to 12 ml/h, and the lymph-to-plasma oncotic pressure ratio (pi L/pi P) fell from 0.7 to 0.48. After left atrial pressure was returned to control, pulmonary arterial pressure, lymph flow, and pi L/pi P all returned to control levels. The rate of weight gain after the return of left atrial pressure to control was also the same as that in the control group. However, during the period of left atrial hypertension 135 ml of fluid were filtered into the lung, and this large increase in lung weight remained after the pressure was lowered. The presence of this substantial excess lung water despite control values for vascular pressures, lymph flow, rate of weight gain, and pi L/pi P suggests that the absolute amount of lung water has little influence on the dynamic aspects of lung fluid balance. These results are consistent with a two-compartment model of the interstitial space, where only one of the compartments is readily drained by the lymphatics.     

Effect of α-Tocopherol on Endotoxicosis

The effect of α-tocopherol in endotoxicosis was studied. The α-tocopherol level significantly decreased in mouse liver 18 hr after endotoxin administration, thereafter tending to increase to approach the normal range. In endotoxin-tolerant mouse liver, the lipid peroxide level was reduced to less than half of that in nontolerant animals following endotoxin challenge. The liver lipid peroxide level and serum lactate dehydrogenase or acid phosphatase leakage were studied in mice fed a vitamin E-deficient (ED) diet and a vitamin E-supplemented (ES) diet for 40 days. ED mouse liver exhibited a higher formation of lipid peroxide after endotoxin was given while there was a markedly lower level in ES mouse liver. There was significantly more serum lactate dehydrogenase or acid phosphatase leakage in ED mice than in ES mice after endotoxin administration. There was about a 25% decrease in liver superoxide dismutase (SOD) activity in endotoxin-poisoned mice fed both the normal and the ED diets, while the activity was at a higher level in ES-fed mice. These results suggest that α-tocopherol may be helpful in preventing membrane instability in endotoxin poisoning.     

Effect of complement activation with cobra venom factor on pulmonary vascular permeability

We examined the effect of acute complement activation on lung vascular permeability to proteins in awake sheep prepared with lung lymph fistulas. Complement was activated by cobra venom factor (CVF) infusion (400 U/kg for 1 h iv). Studies were made in two groups of sheep: 1) infusion of CVF containing the endogenous phospholipase A2 (PLA2) (n = 6); and 2) infusion of CVF pretreated with bromophenacyl bromide to inhibit PLA2 activity (n = 5). Intravascular complement activation transiently increased mean pulmonary arterial pressure (Ppa) and pulmonary vascular resistance (PVR) in both groups. Pulmonary lymph flow (Qlym) and lymph protein clearance (Qlym X lymph-to-plasma protein concentration ratio) were also transiently increased in both groups. Pulmonary vascular permeability to proteins was assessed by raising left atrial pressure and determining the lymph-to-plasma protein concentration ratio (L/P) at maximal Qlym. In both groups the L/P at maximal Qlym was not different from normal. In a separate group (n = 4), CVF-induced complement activation was associated with 111In-oxine granulocyte sequestration in the lungs. In vitro plasma from CVF-treated animals aggregated neutrophils but did not stimulate neutrophils to produce superoxide anion generation. Therefore, CVF-induced complement activation results in pulmonary neutrophil sequestration and in increases in PVR and lymph protein clearance. The increase in lymph protein clearance is due to increased pulmonary microvascular pressure and not increased vascular permeability to proteins.     

Evidence for pulmonary release of 5-hydroxyeicosatetraenoic acid (5-HETE) during endotoxemia in unanesthetized sheep

Leukocyte trapping in the pulmonary circulation may be an important component of the lung vascular injury response to endotoxin, but mediators of the pulmonary leukostasis and increased lung vascular permeability are unknown. The leukocyte 5-lipoxygenation pathway of arachidonic acid metabolism yields highly biologically active products including leukotrienes C₄ and D₄ (formerly slow reacting substance of anaphylaxis) and the potent chemotaxin, leukotriene B₄. A major product of 5-lipoxygenation is 5-hydroxy-6,8,11,14-eicosatetraenoic acid (5-HETE), for which a sensitive, stable isotope dilution assay employing combined gas chromatography-mass spectrometry is available. This assay was used to test the hypothesis that 5-lipoxygenation products might participate in pulmonary vascular responses to endotoxin. We measured 5-HETE concentrations in lung lymph at three intervals during endotoxemia in unanesthetized sheep. Concentrations of 5-HETE in lung lymph exceeded those in aortic blood plasma. Lymph 5-HETE concentrations increased from 1.7±0.3 (mean ± SEM, N = 7) ng/ml during baseline to peak values of 6.1±1.8 ng/ml (p < 0.05) during the hours after endotoxemia and preceeding the steady state increased lung vascular permeability response. During the increased permeability steady state from 240 to 270 minutes after endotoxin, lymph 5-HETE concentrations (1.4±0.3 ng/ml) and lymph 5-HETE flow (i.e., 5-HETE concentration x lung lynph flow rate) returned to baseline values. Although these observations are consistent with the hypothesis that 5-lipoxygenation products participate in the pulmonary vascular injury response to endotoxin, lymph 5-HETE concentrations did not correlate with any of the other experimental measurements. It may be only coincidence that the increase in lymph 5-HETE concentrations appeared contemporaneous with the onset of lung vascular injury.     

Reduction of antigen-induced respiratory abnormalities and airway inflammation in sensitized guinea pigs by a superoxide dismutase mimetic

Reactive oxygen species have been implicated in the pathogenesis of asthma and, in atopic asthmatics, endogenous superoxide dismutase (SOD) enzyme levels are known to decrease. This suggests that replacing a failed endogenous SOD enzyme system with a mimetic of the endogenous enzyme would be beneficial and protective. In this study we demonstrate that removal of superoxide by the SOD mimetic (SODm) M40403 reduces the respiratory and histopathological lung abnormalities due to ovalbumin (OA) aerosol in a model of allergic asthma-like reaction in sensitized guinea pigs. Both respiratory abnormalities and bronchoconstriction in response to OA challenge are nearly absent in na?ve animals, while they sharply became severe in sensitized animals. In addition, OA aerosol induced a reduction of MnSOD activity which was paralleled with bronchiolar lumen reduction, pulmonary air space hyperinflation, mast cell degranulation, eosinophil infiltration, bronchial epithelial cell apoptosis, increase in myeloperoxidase activity, malonyldialdehyde production and 8-hydroxy-2'-deoxyguanosine formation in the lung tissue, as well as elevation of PGD2 in the bronchoalveolar lavage fluid. Treatment with M40403 restored the levels of MnSOD activity and significantly reduced all the above parameters. In summary, our findings support the potential therapeutic use of SOD mimetics in asthma and anaphylactic reactions and account for a critical role for superoxide in acute allergic asthma-like reaction in actively sensitized guinea pig.     

Lung edema formation following inhalation injury: role of the bronchial blood flow

We investigated the contribution of the bronchial blood flow to the lung lymph flow (QL) and lung edema formation after inhalation injury in sheep (n = 18). The animals were equally divided into three groups and chronically prepared by implantation of cardiopulmonary catheters and a flow probe on the common bronchial artery. Groups 1 and 2 sheep were insufflated with 48 breaths of cotton smoke while group 3 received only room air. Just before injury, the bronchial artery of group 2 animals was occluded. The occlusion was maintained for the duration of the 24-h study period. At the end of the investigation, samples of lung were taken for determination of blood-free wet weight-to-dry weight ratio (W/D). Inhalation injury induced a sevenfold increase in QL in group 1 (7 +/- 1 to 50 +/- 9 ml/h; P less than 0.05) but only a threefold increase in group 2 (10 +/- 2 to 28 +/- 7 ml/h; P less than 0.05). The mean W/D value of group 1 animals was 23% higher than that of group 2 (5.1 +/- 0.4 vs. 3.9 +/- 0.2; P less than 0.05). Our data suggest that the bronchial circulation contributes to edema formation in the lung that is often seen after the acute lung injury with smoke inhalation.