UMLS:C0034063 - FACTA Search

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Query: UMLS:C0034063 (pulmonary edema)
10,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of components of ambient particulate matter (PM) on individuals with predisposing respiratory disorders are not well defined. We have previously demonstrated that airway exposure to diesel exhaust particles (DEP) or organic chemicals (OC) extracted from DEP (DEP-OC) enhances lung inflammation related to bacterial endotoxin (lipopolysaccharide, LPS). The present study aimed to examine the effects of airway exposure to OC extracted from urban PM (PM-OC) on lung inflammation related to LPS. ICR mice were divided into four experimental groups that intratracheally received vehicle, LPS (2.5 mg/kg), PM-OC (4 mg/kg), or PM-OC + LPS. Lung inflammation, lung water content, and lung expression of cytokines were evaluated 24 h after intratracheal administration. LPS challenge elicited lung inflammation evidenced by cellular profiles of bronchoalveolar lavage fluid and lung histology, which was further aggravated by the combined challenge with PM-OC. The combination with PM-OC and LPS did not significantly exaggerate LPS-elicited pulmonary edema. LPS instillation induced elevated lung expression of interleukin-1beta, macrophage inflammatory protein-1alpha, macrophage chemoattractant protein-1, and keratinocyte chemoattractant, whereas the combined challenge with PM-OC did not influence these levels. All the results were consistent with our previous reports on DEP-OC. These results suggest that the extracted organic chemicals from PM exacerbate infectious lung inflammation. The mechanisms underlying the enhancing effects are not mediated via the enhanced local expression of proinflammatory cytokines.
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PMID:Effects of organic chemicals derived from ambient particulate matter on lung inflammation related to lipopolysaccharide. 1663 88

Urokinase plasminogen activator (uPA) plays a major role in fibrinolytic processes and also can potentiate LPS-induced neutrophil activation through interactions with its kringle domain (KD). To investigate the role of the uPA KD in modulating acute inflammatory processes in vivo, we cloned and then developed Abs to the murine uPA KD. Increased pulmonary expression of uPA and the uPA KD was present in the lungs after LPS exposure. Administration of anti-kringle Abs diminished LPS-induced up-regulation of uPA and uPA KD in the lungs, and also decreased the severity of LPS-induced acute lung injury, as determined by development of lung edema, pulmonary neutrophil accumulation, histology, and lung IL-6, MIP-2, and TNF-alpha cytokine levels. These proinflammatory effects of the uPA KD appeared to be mediated through activation of Akt and NF-kappaB. The present studies indicate that the uPA KD plays a major role in the development of TLR4-mediated acute inflammatory processes, including lung injury. Blockade of the uPA KD may prevent the development or ameliorate the severity of acute lung injury induced through TLR4-dependent mechanisms, such as would occur in the setting of Gram-negative pulmonary or systemic infection.
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PMID:Involvement of the urokinase kringle domain in lipopolysaccharide-induced acute lung injury. 1701 42

Morbidity and mortality rates of ARDS (acute respiratory distress syndrome) are high in patients with a history of chronic alcohol abuse. In addition to susceptibility to lung infection, alteration of local cellular functions in the lung has recently been proposed as a new mechanism of exacerbation of ARDS in patients with a history of chronic alcohol abuse. Clinical studies and studies using animal experiments have shown that a decrease in lung glutathione levels is associated with exacerbation of ARDS in chronic alcohol abuse. In the alcoholic lung, depletion of glutathione increases oxidative stress derived from activated neutrophils, resulting in decreased surfactant production, apoptosis and increased permeability of alveolar epithelial type II cells, in which TGF-beta1 may be involved. Acetoaldehyde has been suggested to be involved in the mechanism of exacerbation of ARDS by inducing lung remodeling through stimulation of fibronectin expression following nicotinic acetylcholine receptor stimulation and CREB activation in chronic alcohol abuse. More recently, antagonists of angiotensin II type-1 receptor (AT1 receptor) have been shown to prevent glutathione depletion, increase in TGF-beta1 expression and lung edema in endotoxemic rats with chronic alcohol administration. On the other hand, macrophage-derived prostaglandin E2 plays a protective role at an initial phase of ARDS by inhibiting cytokine production by macrophages and extravascular invasion of activated neutrophils. Our recent studies have shown that LPS-induced COX-2 expression and subsequent prostaglandin E2 production in rat alveolar macrophages are inhibited by ethanol incubation in vitro and ethanol administration in vivo. Only a decade has passed since alcohol abuse was demonstrated to be associated with increased mortality of ARDS and future studies are needed to clarify the mechanism underlying alcohol-induced exacerbation of ARDS.
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PMID:[Alcohol abuse as a risk factor for ARDS]. 1717 45

To investigate the effects of Gingyo-san (GGS), the traditional Chinese medicinal formula, on the acute lung inflammation induced by LPS in vivo, mice were challenged with intratracheal LPS before treatment with GGS or vehicle. In lung morphology, GGS reduced the infiltration of activated polymorphonuclear neutrophils in the airways, decreased pulmonary edema, reduced nitrosative stress, and improved lung morphology. ELISA or RT-PCR detected the expression of cytokines in BALF and lung tissue. The mechanism of these benefits by treatment with GGS including attenuating expression TNFalpha, IL-1 beta, IL-6, KC, MCP-1, MIP-2, iNOS, and activation of nuclear factor (NF-kappaB and AP-1) in BALF and lung tissue. Particularly, GGS also enhanced the anti-inflammatory cytokine (IL-10) and limited the acute lung inflammation. Therefore, its protection activity against LPS-induced lung inflammatory mediators release might be beneficial in the treatment of endotoxin-associated inflammation.
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PMID:Protective and immunomodulatory effect of Gingyo-san in a murine model of acute lung inflammation. 1727 22

1. In the present study, we investigated the effects of the inducible nitric oxide (iNOS) inhibitors S-methylisothiourea (SMT) and l-N(6)-(1-iminoethyl)-lysine (l-Nil) on endotoxin-induced acute lung injury (ALI), as well as the associated physiological, biomedical and pathological changes, in anaesthetized Sprague-Dawley rats and in rat isolated perfused lungs. 2. Endotoxaemia was induced by an intravenous (i.v.) infusion of lipopolysaccharide (LPS; Escherichia coli 10 mg/kg). Lipopolysaccharide produced systemic hypotension and tachycardia. It also increased the lung weight/bodyweight ratio, lung weight gain, exhaled nitric oxide (NO), the protein concentration in bronchoalveolar lavage and microvascular permeability. 3. Following infusion of LPS, plasma nitrate/nitrite, methyl guanidine, pro-inflammatory cytokines (tumour necrosis factor-alpha and interleukin-1beta) were markedly elevated. Pathological examination revealed severe pulmonary oedema and inflammatory cell infiltration. Pretreatment with SMT (3 mg/kg, i.v.) or l-Nil (3 mg/kg, i.v.) significantly attenuated the LPS-induced changes and ALI. 4. The results suggest that the inflammatory responses and ALI following infusion of LPS are due to the production of NO, free radicals and pro-inflammatory cytokines through the iNOS system. Inhibition of iNOS is effective in mitigating the endotoxaemic changes and lung pathology. Inhibitors of iNOS may be potential therapeutic agents for clinical application in patients with acute respiratory distress syndrome.
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PMID:Inhibition of inducible nitric oxide synthase attenuates acute endotoxin-induced lung injury in rats. 1732 47

Although airway epithelial cells provide important barrier and host defense functions, a crucial role for these cells in development of acute lung inflammation and injury has not been elucidated. We investigated whether NF-kappaB pathway signaling in airway epithelium could decisively impact inflammatory phenotypes in the lungs by using a tetracycline-inducible system to achieve selective NF-kappaB activation or inhibition in vivo. In transgenic mice that express a constitutively active form of IkappaB kinase 2 under control of the epithelial-specific CC10 promoter, treatment with doxycycline induced NF-kappaB activation with consequent production of a variety of proinflammatory cytokines, high-protein pulmonary edema, and neutrophilic lung inflammation. Continued treatment with doxycycline caused progressive lung injury and hypoxemia with a high mortality rate. In contrast, inducible expression of a dominant inhibitor of NF-kappaB in airway epithelium prevented lung inflammation and injury resulting from expression of constitutively active form of IkappaB kinase 2 or Escherichia coli LPS delivered directly to the airways or systemically via an osmotic pump implanted in the peritoneal cavity. Our findings indicate that the NF-kappaB pathway in airway epithelial cells is critical for generation of lung inflammation and injury in response to local and systemic stimuli; therefore, targeting inflammatory pathways in airway epithelium could prove to be an effective therapeutic strategy for inflammatory lung diseases.
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PMID:Airway epithelium controls lung inflammation and injury through the NF-kappa B pathway. 1747 80

Gut mucosal injury observed during ischemia-reperfusion is believed to trigger a systemic inflammatory response leading to multiple organ failure. It should be interesting to demonstrate this relationship between gut and multiple organ failure in a sepsis model. Intestinal preconditioning (PC) can be used as a tool to assess the effect of intestinal ischemia in inflammatory response after LPS challenge. The aim of this study was to investigate the protective effect of PC against LPS-induced systemic inflammatory and intestinal heme oxygenase-1 (HO-1) expression. ES was performed with LPS (10 mg/kg iv) with or without PC, which was done before LPS. Rats were first subjected to sham surgery or PC with four cycles of 1 min ischemia and 4 min of reperfusion 24 h before LPS challenge or saline administration. PC significantly reduced fluid requirements, lung edema, intestinal lactate production, and intestinal injury. Inflammatory mRNA expressions for intestine and lung ICAM and TNF were significantly reduced after PC, and these effects were significantly abolished by zinc-protoporphyrin (a specific HO-1 activity inhibitor) and mimicked by bilirubin administration. Intestinal PC selectively increased HO-1 mRNA expression in intestine, but we have observed no expression in lungs. These findings demonstrate that intestinal injury is a important event for inflammatory response and multiple organ injury after LPS challenge. Intestinal HO-1 expression attenuates LPS-induced multiple organ failure by modulating intestine injury and its consequences on inflammatory response. Identification of the exact mechanisms responsible for intestine HO-1 induction may lead to the development of new pharmacological interventions.
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PMID:Intestinal preconditioning prevents inflammatory response by modulating heme oxygenase-1 expression in endotoxic shock model. 1782 16

Sepsis is characterized by systemic hypotension, hyporeactiveness to vasoconstrictors, impaired tissue perfusion, and multiple organ failure. During exercise training (ET), dynamic cardiovascular adjustments take place to maintain proper blood pressure and adjust blood supply to different vascular beds. The aim of this study was to investigate whether ET protects against the cardiovascular abnormalities induced by LPS, a model of experimental endotoxemia, and to evaluate the role of nitric oxide (NO) in pulmonary edema. Wistar rats were subjected to swimming training (up to 1 h/day, 5 days/week for 4 weeks) after which their femoral artery and vein were catheterized. LPS (5 mg/kg, i.v.), injected in control (C) and trained animals (ET), promoted 3 distinct phases in mean arterial pressure (MAP) and heart rate (HR). After ET the alterations in MAP were attenuated. The ET animals showed a lower pulmonary edema index (PEI) after LPS (C=0.65+/-0.01; ET=0.60+/-0.02), which was attenuated after treatment with aminoguanidine in both groups (C=0.53+/-0.02; ET=0.53+/-0.02, p<0.05). After l-NAME, PEI was enhanced numerically in the C and was statistically higher in the ET group (C=0.73+/-0.05; ET=1.30+/-0.3, p<0.05). 7-nitroindazole did not promote any alteration in either group. The adaptations promoted by ET seem to be beneficial, counteracting the cardiovascular abnormalities and pulmonary edema seen in septicemia induced by LPS. The results suggest that iNOS aggravates and cNOS protects against this pulmonary edema.
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PMID:Cardiovascular and pulmonary effects of NOS inhibition in endotoxemic conscious rats subjected to swimming training. 1791 68

Vitronectin is present in large concentrations in serum and participates in regulation of humoral responses, including coagulation, fibrinolysis, and complement activation. Because alterations in coagulation and fibrinolysis are common in acute lung injury, we examined the role of vitronectin in LPS-induced pulmonary inflammation. Vitronectin concentrations were significantly increased in the lungs after LPS administration. Neutrophil numbers and proinflammatory cytokine levels, including IL-1beta, MIP-2, KC, and IL-6, were significantly reduced in bronchoalveolar lavage fluid from vitronectin-deficient (vitronectin(-/-)) mice, as compared with vitronectin(+/+) mice, after LPS exposure. Similarly, LPS induced increases in lung edema, myeloperoxidase-concentrations, and pulmonary proinflammatory cytokine concentrations were significantly lower in vitronectin(-/-) mice. Vitronectin(-/-) neutrophils demonstrated decreased KC-induced chemotaxis as compared with neutrophils from vitronectin(+/+) mice, and incubation of vitronectin(+/+) neutrophils with vitronectin was associated with increased chemotaxis. Vitronectin(-/-) neutrophils consistently produced more TNF-alpha, MIP-2, and IL-1beta after LPS exposure than did vitronectin(+/+) neutrophils and also showed greater degradation of IkappaB-alpha and increased LPS-induced nuclear accumulation of NF-kappaB compared with vitronectin(+/+) neutrophils. These findings provide a novel vitronectin-dependent mechanism contributing to the development of acute lung injury.
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PMID:Involvement of vitronectin in lipopolysaccaride-induced acute lung injury. 1798 99

Acute lung injury is still a significant clinical problem having a high mortality rate despite significant advances in antimicrobial therapy and supportive care made in the past few years. Our previous study demonstrated that berberine (Ber) remarkably decreased mortality and attenuated the lung injury in mice challenged with LPS, but the mechanism behind this remains unclear. Here, we report that pretreatment with Ber significantly reduced pulmonary edema, neutrophil infiltration, and histopathological alterations; inhibited protein expression and phosphorylation of cytosolic phospholipase A2; and decreased thromboxane A2 release induced by LPS. Yohimbine, an alpha2-adrenergic receptor antagonist, did not antagonize these actions of Ber. Furthermore, pretreatment with Ber decreased TNF-alpha production and mortality in mice challenged with LPS, which were enhanced by yohimbine, and Ber combined with yohimbine also improved survival rate in mice subjected to cecal ligation and puncture. Taken together, these observations indicate that Ber attenuates LPS-induced lung injury by inhibiting TNF-alpha production and cytosolic phospholipase A2 expression and activation in an alpha2-adrenoceptor-independent manner. Berberine combined with yohimbine might provide an effective therapeutic approach to acute lung injury during sepsis.
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PMID:Berberine inhibits cytosolic phospholipase A2 and protects against LPS-induced lung injury and lethality independent of the alpha2-adrenergic receptor in mice. 1841 36

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