Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0034063 (pulmonary edema)
10,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the actions of saponin (ginsenosides) from Panax ginseng on free radical-induced pulmonary endothelial injury which is manifest as reversal of the normal vasodilator response to acetylcholine in perfused, vasoconstricted lungs. 50 or 200 micrograms/ml ginsenosides prevented this injury response and also reduced the pulmonary edema which follows free radical injury but did not alter the normal ACh-induced vasodilation in intact lungs. In control perfused lungs preconstricted with U46619, the ginsenoside mixture or purified ginsenosides Rb1 and Rg1 caused vasodilatation. This effect was eliminated by 100 microM nitro-L-arginine, an inhibitor of nitric oxide synthase. In cultured bovine aortic endothelial cells, ginsenosides (10 micrograms/ml) stimulated the conversion of [14C]-L-arginine to [14C]-L-citrulline. These data indicate that GS may cause vasorelaxation and prevent manifestations of oxygen free radical injury by promoting release of nitric oxide.
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PMID:Ginsenosides protect pulmonary vascular endothelium against free radical-induced injury. 147 38

The adherence of Bordetella pertussis to human respiratory cilia is critical to the pathogenesis of whooping cough but the significance of bacterial attachment to macrophages has not been determined. Adherence to cilia and macrophages is mediated by two large, nonfimbrial bacterial proteins, filamentous hemagglutinin (FHA), and pertussis toxin (PT). PT and FHA both recognize carbohydrates on cilia and macrophages; FHA also contains an Arg-Gly-Asp (RGD) sequence which promotes bacterial association with the macrophage integrin complement receptor 3 (CR3). We determined that virulent B. pertussis enter and survive in mammalian macrophages in vitro and that CR3 is important for this uptake process. We then determined the relative contribution of CR3 versus carbohydrate-dependent interactions to in vivo pulmonary colonization using a rabbit model. B. pertussis colonized the lung as two approximately equal populations, one extracellular population attached to ciliary and macrophage surface glycoconjugates and another population within pulmonary macrophages. Loss of the CR3 interaction, either by mutation of FHA or treatment with antibody to CR3, disrupted accumulation of viable intracellular bacteria but did not prevent lung pathology. In contrast, elimination of carbohydrate-bound bacteria, either by a competitive receptor analogue or an anti-receptor antibody, was sufficient to prevent pulmonary edema. We propose that CR3-dependent localization of B. pertussis within macrophages promotes persistence of bacteria in the lung without pulmonary injury. On the other hand, the presence of extracellular bacteria adherent to cilia and macrophages in carbohydrate-dependent interactions is associated with pulmonary pathology.
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PMID:Integrin-mediated localization of Bordetella pertussis within macrophages: role in pulmonary colonization. 202 24

Carboxypeptidase N (EC 3.4.12.7) (SCPN) is a plasma enzyme that efficiently inactivates the anaphylatoxins C3a and C4a and significantly reduces C5a spasmogenic activity by removing the C-terminal arginyl residue from each of these factors. The arginine analog DL-2-mercaptomethyl-3-guanidinoethylthiopropanoic acid (SCPN-INH) is a potent competitive inhibitor of SCPN with a Ki for this carboxypeptidase in serum of 2 x 10(-9) M. Therefore, we have used the SCPN inhibitor to potentiate biologic activity of the anaphylatoxins in vivo. Infusion via the carotid artery of about 40 mg of SCPN-INH into each of 8 adult guinea pigs inactivated the SCPN for at least 3 hours and caused no measurable toxic effects. When cobra venom factor (CVF) is infused into guinea pigs, it activates the alternative pathway of complement, thereby generating the anaphylatoxins C3a and C5a. Ordinarily, infusion of CVF is nonlethal, because the generated anaphylatoxins are rapidly converted to C3a des Arg and C5a des Arg by SCPN. However, CVF (200 micrograms) plus SCPN-INH delivered intravenously in 5 animals induced a lethal reaction in less than 5 minutes. The authors conclude that the lethal effect is due largely to the anaphylatoxins. Histologic sections of the lungs from treated animals show dramatic structural changes consistent with peripheral small airway constriction, bronchial constriction, and vasoconstriction of small muscular arteries. Also, cell aggregates are present in blood vessels. Other histologic changes include severe congestion, pulmonary edema, and an interstitial infiltrate of mononuclear cells. Large doses of chlorpheniramine prevent this lethal reaction. Lethality is apparently attributable to asphyxia and is dependent on the level of CVF administered: eg, 100 micrograms CVF was not lethal in 4 animals given SCPN inhibitor, although signs of respiratory distress were observed. On histologic examination of lungs from guinea pigs given CVF and SCPN-INH, the features are similar to those described when anaphylatoxins are instilled into guinea pig lungs. Intravenous application of purified C3a plus SCPN-INH also proved lethal in 3 of the 6 animals challenged. This is the first evidence that the C3a anaphylatoxin can elicit a lethal response.
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PMID:Potentiation of the anaphylatoxins in vivo using an inhibitor of serum carboxypeptidase N (SCPN). I. Lethality and pathologic effects on pulmonary tissue. 685 28

At low concentrations, nitric oxide is a physiological transmitter, but in excessive concentrations it may cause cell and tissue injury. We report that in acute oxidant injury induced by the herbicide paraquat in isolated guinea pig lungs, nitric oxide synthesis was markedly stimulated, as evidenced by increased levels of cyclic GMP in lung perfusate and of nitrite and L-citrulline production in lung tissue. All signs of injury, including increased airway and perfusion pressures, pulmonary edema, and protein leakage into the airspaces, were dose-dependently attenuated or totally prevented by either NG-nitro-L-arginine methyl ester or N omega-nitro-L-arginine, selective and competitive inhibitors of nitric oxide synthase. Protection was reversed by excess L-arginine but not by its enantiomer D-arginine. When blood was added to the lung perfusate, the paraquat injury was moderated or delayed as it was when paraquat was given to anesthetized guinea pigs. The rapid onset of injury and its failure to occur in the absence of Ca2+ suggest that constitutive rather than inducible nitric oxide synthase was responsible for the stimulated nitric oxide synthesis. The findings indicate that nitric oxide plays a critical role in the production of lung tissue injury due to paraquat, and it may be a pathogenetic factor in other forms of oxidant tissue injury.
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PMID:Nitric oxide as a mediator of oxidant lung injury due to paraquat. 751 78

In the present study, we investigated the possible role of nitric oxide synthase in lung injury using female Fischer 344 rats as a model animal and O,O,S-trimethyl phosphorothioate as an example of lung toxicants. One form of nitric oxide synthase, Ca2+/calmodulin dependent type, decreased monotonously in a dose-dependent manner in the cerebellum. In contrast, O,O,S-trimethyl phosphorothioate increased activities of Ca2+ independent nitric oxide synthase in the lung in a dose-associated manner from 5 mg/kg to 15 mg/kg, but decreased at 30 mg/kg. Lung toxicity of O,O,S-trimethyl phosphorothioate, however, as judged both by functional impairments (PaCO2 and [HCO3-]) and histopathological changes, increased sharply at 30 mg/kg. We thus tested the hypothesis that a potent nitric oxide synthase inhibitor, NG-nitro-L-arginine-methyl ester, may modify lung injury induced by O,O,S-trimethyl phosphorothioate. Treatment with NG-nitro-L-arginine-methyl ester at 20 mg/kg/day aggravated lung injury induced by O,O,S-trimethyl phosphorothioate: Pulmonary oedema and bleeding occurred, leading to an increase in mortalities at 15 mg/kg of O,O,S-trimethyl phosphorothioate, at which level it did not induce such changes as when dosed alone. These findings indicate that nitric oxide synthase in the lung might play a protective role in lung injury.
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PMID:O,O,S-trimethyl phosphorothioate increases Ca2+ independent nitric oxide synthase activity in the lung but decreases Ca2+/calmodulin dependent type in the cerebellum in Fischer 344 rats. 752 78

The modulatory role of endogenous nitric oxide (NO) on pulmonary edema induced by acetylcholine (ACh), capsaicin, substance P (SP) and 5-hydroxytryptamine (5-HT) was investigated by using an inhibitor of NO synthase, N-omega-nitro-L-arginine (L-NNA). The effects of endogenous NO on the hemodynamic response to ACh, 5-HT and SP were also investigated. The capillary filtration coefficient (Kf,c), the total pressure gradient (delta Pt) and its four components [arterial (delta Pa), pre- (delta Pa') and post-capillary (delta Pv'), and venous gradient (delta Pv)] were evaluated on isolated, ventilated, perfused rabbit lungs. ACh (10(-8) to 10(-4) M) and SP (10(-10) to 10(-6) M) induced a concentration-dependent increase in the Kf,c. Capsaicin (10(-4) M) and 5-HT (10(-4) M) also increased this parameter. L-NNA (10(-4) M) completely inhibited the effects of ACh and capsaicin on the Kf,c, without preventing the effects of SP and 5-HT. ACh induced a concentration-dependent vasoconstriction in the precapillary segment. Pretreatment with L-NNA enhanced this increase in delta Pa' but also increased delta Pv' and delta Pv. 5-HT increased delta Pt and delta Pa proportionally to the concentration. This effect was enhanced by L-NNA, which also increased delta Pa'. SP had no significant hemodynamic effect. Pretreatment with L-NNA did not modify the response to SP. Sodium nitroprusside (10(-5) M) induced a left shift of the concentration-response curve to ACh on the Kf,c, although it did not change the response to SP. Sodium nitroprusside also inhibited the hemodynamic effect of ACh. It was concluded that endogenous NO is involved in ACh-and capsaicin-induced edema via a prejunctional stimulatory effect on the C-fibers. Endogenous NO can also modulate ACh- and 5-HT-induced vasoconstriction by exerting a vasodilator action on the whole pulmonary vascular bed.
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PMID:Endogenous nitric oxide modulates acetylcholine-induced edema and vasoconstriction in isolated perfused rabbit lungs. 754 68

This study evaluated the effect of varying the synthesis of nitric oxide with sodium nitroprusside or N-nitro-L-arginine methyl ester (L-NAME) in a pancreatitis-lung injury model. Rats (n = 45) were randomized to control or caerulein-induced pancreatitis groups, treated with saline, sodium nitroprusside (0.4 micrograms/kg) or L-NAME (10 mg/kg). Myeloperoxidase activity was used as a measure of neutrophil infiltration. Wet to dry (W:D) lung weight and bronchoalveolar lavage (BAL) protein concentrations were used to assess vascular leakage. Pancreatitis was shown to induce pulmonary neutrophil influx: mean(s.e.m.) myeloperoxidase activity 6.79(0.5) units/g in caerulein-treated animals versus 2.08(0.5) units/g in controls (P < 0.001). Animals with pancreatitis showed increased microvascular leakage compared with controls (mean(s.e.m.) W:D lung weight 7.01(0.5) versus 2.85(0.2), P < 0.001; BAL protein concentration 2539(222) versus 347(32) micrograms/ml, P < 0.001). Compared with the saline-treated pancreatitis group, these changes were reduced by sodium nitroprusside (mean(s.e.m.) myeloperoxidase activity to 2.5(0.4) units/g, P < 0.001; W:D lung weight to 3.8(0.37), P < 0.001; BAL protein concentration 1389(182) micrograms/ml, P < 0.05). L-NAME exacerbated the pancreatitis-induced pulmonary oedema (W:D lung weight increased to 11.96(0.6), P < 0.001), protein leakage (BAL protein concentration rose to 3707(309) micrograms/ml, P < 0.05) and neutrophil infiltration (myeloperoxidase activity increased to 9.01(0.3) units/g, P < 0.05). These data suggest that, in vivo, nitric oxide inhibits pancreatitis-induced lung injury, possibly in part by inhibiting pulmonary neutrophil influx.
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PMID:Role of nitric oxide in lung injury associated with experimental acute pancreatitis. 764 71

This study was undertaken to determine whether endothelium-derived relaxing factor (EDRF) modulates the pulmonary and systemic hemodynamic responses to massive sympathetic nervous system (SNS) activation and, in so doing, also modulates the degree of SNS-induced left ventricular (LV) dysfunction and the likelihood for pulmonary edema formation. The SNS of 13 anesthetized untreated rabbits and 14 anesthetized rabbits pretreated with the EDRF inhibitor, N omega-nitro-L-arginine (L-NNA, 20 mg/kg), was massively activated with an intracisternal injection of veratrine. Pulmonary and systemic arterial pressures increased to the same extent in both groups, but LV end-diastolic pressure was significantly lower in untreated rabbits. During this time, cardiac output decreased by 37% in L-NNA pretreated rabbits compared with 8% in untreated animals. Peak systemic and pulmonary vascular resistances increased significantly in L-NNA rabbits, whereas only systemic vascular resistance increased significantly in untreated rabbits. However, this increase in systemic vascular resistance was threefold less than that observed for L-NNA-treated animals. Although the degree of LV dysfunction was greater in the L-NNA rabbits, pulmonary edema developed less frequently in this group. We suggest that when EDRF release is inhibited during massive SNS activity, pulmonary vascular resistance increases markedly, which causes the right ventricle to fail. We further suggest that the reduced right ventricular output maintains pulmonary microvascular pressure below levels required for edema development.
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PMID:Role of EDRF in the cardiopulmonary dysfunction produced by massive sympathetic activation. 764 98

We measured effluent nitric oxide levels using a chemiluminescence method from leukotoxin (Lx, a linoleate epoxide) injured isolated rat lungs perfused with physiological salt solution. Nitric oxide production from Lx-injured lung promptly increased and lasted for 20 min. Pretreatment with NG-monomethyl-L-arginine (LNMMA) significantly suppressed Lx-induced production of nitric oxide. Effluent from control lungs showed trace levels of nitric oxide. The wet to dry lung weight (WLW/DLW) after termination of the experiments was significantly elevated in Lx-treated lungs compared with that of LNMMA pretreated lungs or control lungs. There was a correlation between nitric oxide levels (at 10 min) and lung edema (WLW/DLW). Thus, nitric oxide plays a role in the pathogenesis of Lx-induced lung injury.
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PMID:Increased nitric oxide biosynthesis in leukotoxin,9,10-epoxy-12-octadecenoate injured lung. 774 32

The effect of smoke inhalation on bradykinin metabolism was studied in the rat lung perfused with Ringer's bicarbonate solution. After smoke (from cotton, polyester, or seat cushion material) inhalation, tritium-labeled bradykinin was added to the Ringer's bicarbonate solution, and then the lung perfusion effluent aliquots containing bradykinin and its metabolic fragments were collected after a single transpulmonary passage. For the 20 control rats without smoke inhalation, 91% of the bradykinin dose was metabolized, with Pro-Pro (I), 49%, and Arg-Pro-Pro-Gly-Phe (II), 32%, being the predominant bradykinin cleavage fragments. For 12 rats with smoke inhalation, 89% of the bradykinin dose was metabolized, with I (28%) and II (36%) being the major bradykinin cleavage fragments. The type of smoke did not significantly alter the capacity of the rat lung to metabolize bradykinin. Exposure to smoke from seat cushion material for more than 3 minutes caused pulmonary edema and thickening, and smoke exposure for more than 5 minutes caused loss of integrity at the lung alveolar-capillary interface. In contrast, exposure to cotton or polyester smoke did not cause any observable gross changes of the lung. Electron microscopic examination of lung exposed to seat cushion material smoke revealed considerable damage, with the type I epithelium existing as patches on the alveolar surface and capillary endothelium separated from the basement lamina. Thus in our model acute, short-term inhalation of smoke did not significantly alter the amount of bradykinin metabolized by the pulmonary endothelium so long as the integrity of the lung alveolar-capillary interface was maintained, although there seemed to be a moderate shift in the amount of major cleavage fragments from I to II.
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PMID:The effect of smoke inhalation on bradykinin metabolism by the perfused and ventilated rat lung. 853 19


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