UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Targeted delivery of drugs to vascular endothelium promises more effective and specific therapies in many disease conditions, including acute lung injury (ALI). This study evaluates the therapeutic effect of drug targeting to PECAM (platelet/endothelial cell adhesion molecule-1) in vivo in the context of pulmonary oxidative stress. Endothelial injury by reactive oxygen species (e.g., H2O2) is involved in many disease conditions, including ALI/acute respiratory distress syndrome and ischemia-reperfusion. To optimize delivery of antioxidant therapeutics, we conjugated catalase with PECAM antibodies and tested properties of anti-PECAM/catalase conjugates in cell culture and mice. Anti-PECAM/catalase, but not an IgG/catalase counterpart, bound specifically to PECAM-expressing cells, augmented their H2O2-degrading capacity, and protected them against H2O2 toxicity. Anti-PECAM/catalase, but not IgG/catalase, rapidly accumulated in the lungs after intravenous injection in mice, where it was confined to the pulmonary endothelium. To test its protective effect, we employed a murine model of oxidative lung injury induced by glucose oxidase coupled with thrombomodulin antibody (anti-TM/GOX). After intravenous injection in mice, anti-TM/GOX binds to pulmonary endothelium and produces H2O2, which causes lung injury and 100% lethality within 7 h. Coinjection of anti-PECAM/catalase protected against anti-TM/GOX-induced pulmonary oxidative stress, injury, and lethality, whereas polyethylene glycol catalase or IgG/catalase conjugates afforded only marginal protective effects. This result validates vascular immunotargeting as a prospective strategy for therapeutic interventions aimed at immediate protective effects, e.g., for augmentation of antioxidant defense in the pulmonary endothelium and treatment of ALI.
Am J Physiol Lung Cell Mol Physiol 2003 Aug
PMID:PECAM-directed delivery of catalase to endothelium protects against pulmonary vascular oxidative stress. 1285 Dec 8

Surfactant plays an important role in lung homeostasis and is also involved in maintaining innate immunity within the lung. Lipopolysaccharide (LPS) from gram-negative bacteria is known to elicit acute proinflammatory responses in lung diseases such as acute respiratory distress syndrome and pneumonia, among others. Our previous studies demonstrated that the clinically used, natural surfactant product Survanta inhibited proinflammatory cytokine secretion from LPS-stimulated human alveolar macrophages. Here we investigated the effect of Survanta on mitogen-activated protein (MAP) and IkappaB kinases. Survanta blocked LPS-induced activation of nuclear factor-kappaB, a key regulatory transcription factor involved in cytokine production, by preventing phosphorylation of IkappaBalpha, and its subsequent degradation. IkappaB is phosphorylated by specific kinases (IKK) before degradation. Survanta inhibited activity of both alpha and beta subunits of IKK, thereby delaying the phosphorylation of IkappaB. Interestingly, IKK-alpha is predominant in alveolar macrophages, whereas IKK-beta predominates in monocytes. Survanta also inhibited extracellular signal-regulated kinase and p38 MAP kinase activity induced by LPS. Data are the first to show that surfactant may regulate lung homeostasis in part by inhibiting proinflammatory cytokine production through reduction of IKK and MAP kinase activity.
Am J Respir Cell Mol Biol 2004 Feb
PMID:Surfactant blocks lipopolysaccharide signaling by inhibiting both mitogen-activated protein and IkappaB kinases in human alveolar macrophages. 1292 56

KL-6 is a pulmonary epithelial mucin more prominently expressed on the surface membrane of alveolar type II cells when these cells are proliferating, stimulated, and/or injured. We hypothesized that high levels of KL-6 in epithelial lining fluid and plasma would reflect the severity of lung injury in patients with acute lung injury (ALI). Epithelial lining fluid was obtained at onset (day 0) and day 1 of acute respiratory distress syndrome (ARDS)/ALI by bronchoscopic microsampling procedure in 35 patients. On day 0, KL-6 and albumin concentrations in epithelial lining fluid were significantly higher than in normal controls (P < 0.001), and the concentrations of KL-6 in epithelial lining fluid (P < 0.002) and in plasma (P < 0.0001) were higher in nonsurvivors than in survivors of ALI/ARDS. These observations were corroborated by the immunohistochemical localization of KL-6 protein expression in the lungs of nonsurvivors with ALI and KL-6 secretion from cultured human alveolar type II cells stimulated by proinflammatory cytokines. Because injury to distal lung epithelial cells, including alveolar type II cells, is important in the pathogenesis of ALI, the elevation of KL-6 concentrations in plasma and epithelial lining fluid could be valuable indicators for poor prognosis in clinical ALI.
Am J Physiol Lung Cell Mol Physiol 2004 Jun
PMID:Elevation of KL-6, a lung epithelial cell marker, in plasma and epithelial lining fluid in acute respiratory distress syndrome. 1513 92

We tested the hypothesis that interleukin (IL)-1beta-induced cortisol synthesis stimulates alveolar fluid clearance in preterm fetuses. IL-1beta was administered subcutaneously daily to timed-pregnant guinea pigs for 3 days with and without simultaneous cortisol synthesis inhibition by metyrapone. Fetuses were obtained by abdominal hysterotomy at 61 and 68 days gestation and instilled with isosmolar 5% albumin in the lungs, and alveolar fluid movement was measured over 1 h from the change in alveolar protein concentration. Alveolar fluid clearance was induced at 61 days gestation and stimulated at 68 days gestation by IL-1beta, which both were attenuated by cortisol synthesis inhibition. Plasma ACTH and cortisol concentrations were increased by IL-1beta at both gestational ages, and metyrapone reduced cortisol concentrations. IL-1beta was mostly low or undetectable in both fetal and maternal blood. Prenatal alveolar fluid clearance, when present as well as IL-1beta induced, was always propranolol and amiloride sensitive, suggesting that beta-adrenoceptor stimulation and amiloride-sensitive Na+ channels were critical for fluid absorption. IL-1beta increased lung beta-adrenoceptor density at gestation day 61, and cortisol synthesis inhibition attenuated the increased beta-adrenoceptor density. Epithelial Na+ channel and Na+-K+-ATPase subunit expressions were both increased by IL-1beta and attenuated by cortisol synthesis inhibition. These results may explain why babies delivered preterm after intrauterine inflammation have a reduced risk of developing severe respiratory distress.
Am J Physiol Lung Cell Mol Physiol 2004 Apr
PMID:IL-1beta stimulates alveolar fluid absorption in fetal guinea pig lungs via the hypothalamus-pituitary-adrenal gland axis. 1464 57

Activated alveolar macrophages (AMphi) are known to constitute a critical modulator of the lung inflammatory response through the production of various mediators. However, the role of activated AMphi in acute lung injury (ALI) and acute respiratory distress syndrome is less well known. To address this issue, we examined a lipopolysaccharide (LPS)-induced lung injury model for the role of activated AMphi in vivo, focusing on activation through CD40, which is one of the most important pathways for the activation of antigen-presenting cells. Without CD40, LPS-induced ALI was significantly reduced in its histological degree of injury and recruitment of neutrophils into the lung. In addition, the release in the lung of inflammatory mediators such as tumor necrosis factor-alpha, interleukin-1beta, macrophage inflammatory protein 2, or matrix metalloproteinase was significantly reduced in mice deficient in CD40 (CD40KO). To elucidate the mechanism of this attenuation of ALI in CD40KO mice, we studied the function of AMphi ex vivo. AMphi purified from CD40KO mice could not induce expression of inducible nitric oxide synthase (iNOS) by LPS, although iNOS in wild-type AMphi was induced by LPS independently of CD40-CD154 interaction. The loss of surface expression of CD40 was enough to interrupt the expression of iNOS in AMphi in response to LPS. Also based on the tissue nitrotyrosine staining, the reactive oxygen and nitrogen intermediates seemed to be reduced in tissue in CD40KO mice. These results indicated that activation of AMphi through CD40 might be involved not only in amplification by the interaction with CD154 but also in the development of ALI by CD40 itself, and that the functional blockade of CD40 would yield one of the targets for the treatment of LPS-induced ALI and acute respiratory distress syndrome.
Am J Respir Cell Mol Biol 2004 Jun
PMID:CD40 plays a crucial role in lipopolysaccharide-induced acute lung injury. 1469 68

Genetic studies using a set of overlapping deletions centered at the piebald locus on distal mouse chromosome 14 have defined a genomic region associated with respiratory distress and lethality at birth. We have isolated and characterized the candidate gene Phr1 that is located within the respiratory distress critical genomic interval. Phr1 is the ortholog of the human Protein Associated with Myc as well as Drosophila highwire and Caenorhabditis elegans regulator of presynaptic morphology 1. Phr1 is expressed in the embryonic and postnatal nervous system. In mice lacking Phr1, the phrenic nerve failed to completely innervate the diaphragm. In addition, nerve terminal morphology was severely disrupted, comparable with the synaptic defects seen in the Drosophila hiw and C. elegans rpm-1 mutants. Although intercostal muscles were completely innervated, they also showed dysmorphic nerve terminals. In addition, sensory neuron terminals in the diaphragm were abnormal. The neuromuscular junctions showed excessive sprouting of nerve terminals, consistent with inadequate presynaptic stimulation of the muscle. On the basis of the abnormal neuronal morphology seen in mice, Drosophila, and C. elegans, we propose that Phr1 plays a conserved role in synaptic development and is a candidate gene for respiratory distress and ventilatory disorders that arise from defective neuronal control of breathing.
Mol Cell Biol 2004 Feb
PMID:Evidence for a conserved function in synapse formation reveals Phr1 as a candidate gene for respiratory failure in newborn mice. 1472 56

The development of a successful gene therapy has many stages, including preclinical testing in animal models and proof of principle clinical studies. A variety of diseases affect the lung, which are candidates for gene therapy; this review will mainly focus on the diseases that have attracted the most attention and have therefore yielded the most progress, namely lung cancer and the monogenic disorder cystic fibrosis. Knowledge gained from clinical studies could eventually be applied to more complex lung conditions such as acute respiratory distress syndrome and asthma. In addition, increased gene transfer efficiencies could be obtained by appropriate selection of the gene transfer vector and mode of delivery.
Cell Mol Life Sci 2004 Feb
PMID:The development of gene therapy for diseases of the lung. 1477 Feb 98

Transport of protein across the alveolar epithelial barrier is a critical process in recovery from pulmonary edema and is also important in maintaining the alveolar milieu in the normal healthy lung. Various mechanisms have been proposed for clearing alveolar protein, including transport by the mucociliary escalator, intra-alveolar degradation, or phagocytosis by macrophages. However, the most likely processes are endocytosis across the alveolar epithelium, known as transcytosis, or paracellular diffusion through the epithelial barrier. This article focuses on protein transport studies that evaluate these two potential mechanisms in whole lung or animal preparations. When protein concentrations in the air spaces are low, e.g., albumin concentrations <0.5 g/100 ml, protein transport demonstrates saturation kinetics, temperature dependence indicating high energy requirements, and sensitivity to pharmacological agents that affect endocytosis. At higher concentrations, the protein clearance rate is proportional to protein concentration without signs of saturation, inversely related to protein size, and insensitive to endocytosis inhibition. Temperature dependence suggests a passive process. Based on these findings, alveolar albumin clearance occurs by receptor-mediated transcytosis at low protein concentrations but proceeds by passive paracellular mechanisms at higher concentrations. Because protein concentrations in pulmonary edema fluid are high, albumin concentrations of 5 g/100 ml or more, clearance of alveolar protein occurs by paracellular pathways in the setting of pulmonary edema. Transcytosis may be important in regulating the alveolar milieu under nonpathological circumstances. Alveolar degradation may become important in long-term protein clearance, clearance of insoluble proteins, or under pathological conditions such as immune reactions or acute lung injury. acute respiratory distress syndrome; endocytosis; diffusion; protein transport pulmonary edema
Am J Physiol Lung Cell Mol Physiol 2004 Apr
PMID:Mechanisms of alveolar protein clearance in the intact lung. 1500 32

Interleukin (IL)-22 is a member of the human type I interferon family, which includes IL-10. IL-22 has the potential to interact with IL-10 because it binds to the IL-10R2c chain with IL-22R1 in its receptor complex. Binding can be blocked by the soluble receptor, IL-22 binding protein (IL-22BP). We hypothesize that IL-22 and IL-22BP are involved in inflammatory regulation and its subsequent role in the pathogenesis of inflammatory lung disease. We have demonstrated IL-22 mRNA expression in alveolar macrophages (AM), monocytes, and alveolar epithelial (AE) cells. IL-22BP mRNA is expressed in AM, AE cells, and neutrophils. In contrast, IL-22R1 is expressed in AE only. Immunohistochemistry on normal and interstitial lung disease lung sections has confirmed IL-22 protein expression. Western blotting for IL-22 in bronchoalveolar lavage fluid demonstrated that lower levels of IL-22 were present in patients with acute respiratory distress syndrome and sarcoidosis relative to control subjects (P = 0.0152 and P = 0.0213). Levels of IL-22 in idiopathic pulmonary fibrosis were not different than those of the control subjects (P = 0.5838). IL-22 did not affect IL-10 inhibition of tumor necrosis factor-alpha in monocytes, which do not express IL-22R1. By contrast, we demonstrated synergy between IL-10 and IL-22 in terms of IL-8 inhibition in IL-22R1-expressing A549 cells. These data suggest a role for IL-22 in the regulation of pulmonary inflammation.
Am J Respir Cell Mol Biol 2004 Aug
PMID:Interleukin-22: a potential immunomodulatory molecule in the lung. 1503 35

Bronchopulmonary dysplasia (BPD), the most common chronic lung disease in infancy, is influenced by a number of antenatal and postnatal risk factors and is mostly preceded by respiratory distress syndrome (RDS) in the newborn. Surfactant protein (SP-A, -B, -C and -D) gene variations may play a role in both BPD and RDS. An association study between these candidate genes and BPD was performed. A total of 365 preterm Finnish infants in a high-risk population with gestational age <or=32 weeks were genotyped for all SP genes. A multiparameter analysis was performed using Agrawal's algorithm based data mining and conventional methods of statistical allelic association. In singletons and presenting multiples, the frequency of SP-B intron 4 deletion variant allele was increased in BPD versus controls (P=0.008, OR=2.0, 95%CI 1.2-3.4). The presence of the SP-B intron 4 deletion variant was a risk factor for BPD even when essential external confounding factors were included in the analyses. No other SP polymorphisms associated with BPD, and the SP-B intron 4 variation did not associate with RDS. Transcription Element Search Software predicted allele-specific differences at several putative transcription factor binding sites that may be important in SP-B regulation. The present multiparameter analysis demonstrates the presumable direct involvement of the SP-B intron 4 deletion variant allele as a genetic risk factor to BPD. We propose that two separate SP-B gene polymorphisms have a phenotypic significance via separate molecular mechanisms: the intron 4 length variation affecting transcriptional regulation, and the exonic Ile131Thr variation affecting post-translationally.
Hum Mol Genet 2004 Jun 01
PMID:Data mining and multiparameter analysis of lung surfactant protein genes in bronchopulmonary dysplasia. 1510 13

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