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ABSTRACT: BACKGROUND: Chronic ethanol (EtOH) abuse in humans is known to independently increase the incidence of and mortality due to acute lung injury in at-risk individuals. However, the mechanisms by which EtOH affects lung cells remain incompletely elucidated. In earlier work, we reported that EtOH increased the expression in lung fibroblasts of fibronectin, a matrix glycoprotein implicated in lung injury and repair. This effect was blocked by α-bungarotoxin, a neurotoxin that binds certain nicotinic acetylcholine receptors (nAChRs) thereby implicating nAChRs in this process. Here, we examine the identity of these receptors. METHODS: Mouse lung fibroblasts were stimulated with EtOH (60 mM) or acetylcholine (100 to 500 μM) and evaluated for the expression of fibronectin and nAChRs. Inhibitors to nAChRs or the antioxidant N-acetyl cysteine (NAC) were used to assess changes in fibronectin expression. Animals exposed to EtOH for up to 6 weeks were used to evaluate the expression of nAChRs in vivo. RESULTS: First, in EtOH-treated fibroblasts, we observed increased expression of α4 and α9 nAChR subunits. Second, we found that acetylcholine, a natural ligand for nAChRs, mimicked the effects of EtOH. Dihydro-β-erythroidin hydrobromide, a competitive inhibitor of α4 nAChR, blocked the increase in fibronectin expression and cell proliferation. Furthermore, EtOH-induced fibronectin expression was inhibited in cells silenced for α4 nAChR. However, EtOH-treated cells showed increased α-bungarotoxin binding suggesting that α4 nAChR mediates the effects of EtOH via a ligand-independent pathway. Knowing there are several important cysteine residues near the ligand-binding site of α4 nAChRs, we tested the antioxidant NAC and found that it too blocked the induction of fibronectin expression by EtOH. Also, fibroblasts exposed to oxidant stress showed increased fibronectin expression that was blocked with α-bungarotoxin. Finally, we showed increased expression of α4 nAChRs in the lung tissue of mice and rats exposed to EtOH suggesting a role for these receptors in vivo. CONCLUSIONS: Altogether, our observations suggest that α4 nAChRs serve as sensors for EtOH-induced oxidant stress in lung fibroblasts, thereby revealing a new mechanism by which EtOH may affect lung cells and tissue remodeling and pointing to nAChRs as potential targets for intervention.
Alcoholism Clinical and Experimental Research 02/2013; · 3.34 Impact Factor
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ABSTRACT: Background:Maternal smoking in utero has been associated with adverse health outcomes including lower respiratory tract infections in infants and children, but the mechanisms underlying these associations continue to be investigated. We hypothesized that nicotine plays a significant role in mediating the effects of maternal tobacco smoke on neonatal alveolar macrophage (AM) function, the resident immune cell in the neonatal lung.Methods:Primary AMs were isolated at postnatal day 7 from a murine model of in utero nicotine exposure. The murine AM cell line MH-S was used for additional in vitro studies.Results:In utero nicotine increased IL-13 and transforming growth factor beta one (TGFβ1) in the neonatal lung. Nicotine-exposed AMs demonstrated increased TGFβ1 and increased markers of alternative activation with diminished phagocytic function. However, AMs from mice deficient in the α7 nicotinic acetylcholine receptor (α7 nAChR) had less TGFβ1, reduced alternative activation and improved phagocytic functioning despite similar in utero nicotine exposure.Conclusion:In utero nicotine exposure, mediated in part via the α7 nAChR, may increase the risk of lower respiratory tract infections in neonates by changing the resting state of AM towards alternative activation. These findings have important implications for immune responses in the nicotine-exposed neonatal lung.
Pediatric Research 05/2012; · 2.70 Impact Factor
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ABSTRACT: Idiopathic pulmonary fibrosis (IPF) is a devastating progressive lung disease with an average survival of only 3 to 5 years. The mechanisms underlying the initiation and progression of IPF are poorly understood, and treatments available have only modest effect on disease progression. Interestingly, the incidence of IPF is approximately 60 times more common in individuals aged 75 years and older, but the mechanism by which aging promotes fibrosis is unclear. The authors hypothesized that aged lungs have a profibrotic phenotype that render it susceptible to disrepair after injury.
Young and old mice were treated with bleomycin to examine disrepair in the aged lung. In addition, uninjured young and old mouse lungs were analyzed for transforming growth factor-beta 1 (TGF-β1) production, extracellular matrix composition and lung fibroblast phenotype. Lung fibroblasts were treated with a DNA methyltransferase inhibitor to examine the potential epigenetic mechanisms involved in age-associated phenotypic alterations.
The lungs of old mice showed worse fibrosis after bleomycin-induced injury compared with the lungs from young mice. At baseline, aged lungs expressed a profibrotic phenotype characterized by increased mRNA expression for fibronectin extracellular domain A (Fn-EDA) and the matrix metalloproteinases (MMPs) MMP-2 and MMP-9. Old lungs also expressed higher levels of TGF-β receptor 1 and TGF-β1 mRNA, protein and activity as determined by increased Smad3 expression, protein phosphorylation and DNA binding. Lung fibroblasts harvested from aged lungs showed reduced expression of the surface molecule Thy-1, a finding also implicated in lung fibrosis; the latter did not seem related to Thy-1 gene methylation.
Altogether, aged lungs manifest a profibrotic phenotype characterized by enhanced fibronectin extracellular domain A and MMP expression and increased TGF-β1 expression and signaling and are populated by Thy-1-negative fibroblasts, all implicated in the pathogenesis of lung fibrosis.
The American Journal of the Medical Sciences 12/2011; 344(1):41-51. · 1.39 Impact Factor
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ABSTRACT: Osteoporosis and bone fractures are increasingly recognized complications of HIV-1 infection. Although antiretroviral therapy itself has complex effects on bone turnover, it is now evident that the majority of HIV-infected individuals already exhibit reduced bone mineral density before therapy. The mechanisms responsible are likely multifactorial and have been difficult to delineate in humans. The HIV-1 transgenic rat recapitulates many key features of human AIDS. We now demonstrate that, like their human counterparts, HIV-1 transgenic rats undergo severe osteoclastic bone resorption, a consequence of an imbalance in the ratio of receptor activator of NF-kappaB ligand, the key osteoclastogenic cytokine, to that of its physiological decoy receptor osteoprotegerin. This imbalance stemmed from a switch in production of osteoprotegerin to that of receptor activator of NF-kappaB ligand by B cells, and was further compounded by a significantly elevated number of osteoclast precursors. With the advancing age of individuals living with HIV/AIDS, low bone mineral density associated with HIV infection is likely to collide with the pathophysiology of skeletal aging, leading to increased fracture risk. Understanding the mechanisms driving bone loss in HIV-infected individuals will be critical to developing effective therapeutic strategies.
Proceedings of the National Academy of Sciences 08/2010; 107(31):13848-53. · 9.68 Impact Factor
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ABSTRACT: Inflammation in the setting of interstitial lung disease (ILD) occurs in the distal alveolar spaces of the lung, which presents significant challenges for therapeutic delivery. The development of aerosolizable microparticles from non-immunogenic polymers is needed to enable the clinical translation of numerous experimental therapeutics that require localization to the deep lung and repeated delivery for optimal efficacy. Polyketals (PK), a family of polymers, have several unique properties that make them ideal for lung delivery, specifically their hydrolysis into non-acidic, membrane-permeable compounds and their capacity to form microparticles with the aerodynamic properties needed for aerosolization. In this study, we tested the lung biocompatibility of microparticles created from a polyketal polymer, termed PK3, following intratracheal instillation in comparison to commonly used PLGA microparticles. We furthermore tested the initial efficacy of PK3 microparticles to encapsulate and effectively deliver active superoxide dismutase (SOD), a free radical scavenging enzyme, in a model of lung fibrosis. Our findings indicate that PK3 microparticles display no detectable level of alveolar or airway inflammation, whereas PLGA induced a small inflammatory response. Furthermore, SOD-loaded into PK3 microparticles maintained its activity upon release and, when delivered via PK3 microparticles, inhibited the extent of lung fibrosis.
Biomaterials 10/2009; 31(5):810-7. · 7.40 Impact Factor
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ABSTRACT: The lung is dynamically remodeled in response to injury, which alters extracellular matrix composition, and can lead to either healthy or impaired lung regeneration. To determine how changes in extracellular matrix can influence alveolar epithelial barrier function, we examined the expression and function of tight junction proteins by rat alveolar epithelial type II cells cultured on one of three different matrix components: type I collagen or fibronectin, matrix glycoproteins which are highly expressed in injured lungs, or laminin, a basement membrane matrix component. Of note, alveolar epithelial cells cultured for 2 days on fibronectin formed high-resistance barriers and showed continuous claudin-3 and claudin-18 localization to the plasma membrane, as opposed to cells cultured on either type I collagen or laminin, which had low resistance monolayers and had areas of cell-cell contact that were claudin deficient. The barrier formed by cells cultured on fibronectin also had preferential permeability to chloride as compared with sodium. Regardless of the initial matrix composition, alveolar epithelial cells cultured for 5 days formed high-resistance barriers, which correlated with increased claudin-18 localization to the plasma membrane and an increase in zonula occludens-1. Day 5 cells on laminin had significantly higher resistance than cells on either fibronectin or type I collagen. Thus, although alveolar epithelial cells on fibronectin formed rapid barriers, it was at the expense of producing an optimized barrier.
American Journal of Respiratory Cell and Molecular Biology 06/2009; 42(2):172-80. · 5.13 Impact Factor
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ABSTRACT: Several lines of evidence indicate that depletion of glutathione (GSH), a critical thiol antioxidant, is associated with the pathogenesis of idiopathic pulmonary fibrosis (IPF). However, GSH synthesis depends on the amino acid cysteine (Cys), and relatively little is known about the regulation of Cys in fibrosis. Cys and its disulfide, cystine (CySS), constitute the most abundant low-molecular weight thiol/disulfide redox couple in the plasma, and the Cys/CySS redox state (E(h) Cys/CySS) is oxidized in association with age and smoking, known risk factors for IPF. Furthermore, oxidized E(h) Cys/CySS in the culture media of lung fibroblasts stimulates proliferation and expression of transitional matrix components. The present study was undertaken to determine whether bleomycin-induced lung fibrosis is associated with a decrease in Cys and/or an oxidation of the Cys/CySS redox state and to determine whether these changes were associated with changes in E(h) GSH/glutathione disulfide (GSSG). We observed distinct effects on plasma GSH and Cys redox systems during the progression of bleomycin-induced lung injury. Plasma E(h) GSH/GSSG was selectively oxidized during the proinflammatory phase, whereas oxidation of E(h) Cys/CySS occurred at the fibrotic phase. In the epithelial lining fluid, oxidation of E(h) Cys/CySS was due to decreased food intake. Thus the data show that decreased precursor availability and enhanced oxidation of Cys each contribute to the oxidation of extracellular Cys/CySS redox state in bleomycin-induced lung fibrosis.
AJP Lung Cellular and Molecular Physiology 11/2008; 296(1):L37-45. · 3.66 Impact Factor
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ABSTRACT: There is abundant epidemiological data linking prenatal environmental tobacco smoke with childhood asthma and wheezing, but the underlying molecular and physiological mechanisms that occur in utero to explain this link remain unelucidated. Several studies suggest that nicotine, which traverses the placenta, is a causative agent. Therefore, we studied the effects of nicotine on lung branching morphogenesis using embryonic murine lung explants. We found that the expression of alpha(7) nicotinic acetylcholine receptors, which mediate many of the biological effects of nicotine, is highest in pseudoglandular stage lungs compared with lungs at later stages. We then studied the effects of nicotine in the explant model and found that nicotine stimulated lung branching in a dose-dependent fashion. alpha-Bungarotoxin, an antagonist of alpha(7) nicotinic acetylcholine receptors, blocked the stimulatory effect of nicotine, whereas GTS-21, a specific agonist, stimulated branching, thereby mimicking the effects of nicotine. Explants deficient in alpha(7) nicotinic acetylcholine receptors did not respond to nicotine. Nicotine also stimulated the growth of the explant. Altogether, these studies suggest that nicotine stimulates lung branching morphogenesis through alpha(7) nicotinic acetylcholine receptors and may contribute to dysanaptic lung growth, which in turn may predispose the host to airway disease in the postnatal period.
AJP Lung Cellular and Molecular Physiology 10/2007; 293(3):L611-8. · 3.66 Impact Factor
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ABSTRACT: Adenosine is an extracellular nucleoside that is elevated in tissues during hypoxia and ischemia reperfusion and has been implicated in asthma and other lung disorders. There, adenosine is considered an important modulator of physiological functions and inflammation, but its effects on matrix expression and turnover during tissue remodeling are unknown. We examined the effects of adenosine on lung epithelial cells with particular attention to the expression of fibronectin, a matrix glycoprotein highly expressed in injured tissues that has been implicated in wound healing. In A549 lung epithelial cells, we found that adenosine induced expression of fibronectin mRNA and protein in a dose- and time-dependent manner and found that the stimulatory effect of adenosine was inhibited by specific adenosine receptor antagonists. Adenosine stimulation was associated with increased levels of intracellular cAMP and with phosphorylation and DNA binding of the cAMP response element binding protein (CREB), known for its ability to stimulate fibronectin gene transcription. To confirm the latter, A549 cells were transfected with a DNA construct containing the human fibronectin promoter connected to a luciferase reporter gene. Adenosine stimulated transcription of the gene, and this effect was blocked by inhibitors of protein kinase activation. Finally, we tested primary lung fibroblasts and primary alveolar epithelial type II cells and found increased fibronectin expression in response to adenosine. Overall, our observations suggest that adenosine might modulate tissue remodeling by stimulating fibronectin expression in lung epithelial cells through induction of purinergic receptor-mediated signals that target CREB phosphorylation and stimulate fibronectin gene transcription.
AJP Lung Cellular and Molecular Physiology 03/2006; 290(2):L317-25. · 3.66 Impact Factor
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ABSTRACT: Tobacco use is the most important risk factor for the development of lung carcinoma. One characteristic shared by tobacco-related lung diseases is altered lung connective tissue content and composition. In particular, tobacco results in increased expression of fibronectin (FN), a matrix glycoprotein implicated in lung development, injury and repair and in tumor cell invasion. We hypothesized that excessive deposition of FN in lung might promote lung carcinoma cell proliferation. Consistent with this hypothesis, we found that FN stimulated human lung carcinoma cell proliferation and diminished apoptosis in vitro, and that this effect was mediated through the integrin alpha5beta1 and associated with upregulation of cyclooxygenase-2 (COX-2) mRNA and protein expression, and increased prostaglandin E2 (PGE2) biosynthesis. The stimulatory effect of FN on COX-2 was blocked by the specific COX-2 inhibitor NS-398 and by inhibitors of protein kinase C (PKC), Calphostin C, and extracellular signal-regulated kinases (Erks), PD98095. Electrophoretic mobility shift assays revealed that FN increased the nuclear binding activity of cyclic AMP response element binding protein (CREB) and CCAAT/enhancer-binding protein (C/EBP), 2 proteins known to play important roles in the regulation of COX-2 promoter activity. Transient transfection assays with wild-type and mutated constructs of the human COX-2 gene promoter revealed that the stimulatory effect of FN was prevented when either the CRE or the NF-IL6 (C/EBP) sites were mutated. Taken together, the results indicate that FN stimulates human lung carcinoma cell proliferation and diminishes apoptosis by inducing COX-2 gene expression and PGE2 biosynthesis. Activation of PKC and Erk and DNA-protein interactions at CRE and NF-IL6 (C/EBP) sites in the COX-2 gene promoter appear to play key roles in this process. This work demonstrates that signaling through specific matrix-binding beta1 integrins (i.e., alpha5beta1) resulting from exaggerated deposition in lung of the matrix glycoprotein fibronectin might promote lung carcinoma cell growth.
International Journal of Cancer 10/2004; 111(3):322-31. · 5.44 Impact Factor
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ABSTRACT: Tobacco-related lung diseases are associated with alterations in tissue remodeling and are characterized by increased matrix deposition. Among the matrix molecules found to be highly expressed in tobacco-related lung diseases is fibronectin, a cell adhesive glycoprotein implicated in tissue injury and repair. We hypothesize that nicotine, a component of tobacco, stimulates the expression of fibronectin in lung fibroblasts via the activation of intracellular signals that lead to increased fibronectin gene transcription. In support of this, we found that nicotine stimulated the expression of fibronectin in lung fibroblasts and that its stimulatory effect was associated with activation of protein kinase C and mitogen-activated protein kinases, increased levels of intracellular cAMP, and phosphorylation and DNA binding of the transcription factor CREB. Increased transcription of the gene was dependent on cAMP-response elements (CREs) present on the 5' end of its gene promoter. The stimulatory effect of nicotine on fibronectin expression was abolished by alpha-bungarotoxin, an inhibitor of alpha7 nicotinic acetylcholine receptors (alpha7 AChRs). Of note, nicotine increased the expression of alpha7 nAChRs on fibroblasts. Our data suggest that nicotine induces lung fibroblasts to produce fibronectin by stimulating alpha7 nAChR-dependent signals that regulate the transcription of the fibronectin gene.
The FASEB Journal 10/2004; 18(12):1436-8. · 5.71 Impact Factor
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ABSTRACT: LPS is an outer-membrane glycolipid component of gram-negative bacteria known for its fervent ability to activate monocytic cells and for its potent proinflammatory capabilities. In addition, LPS triggers the release of cytokines and chemokines as well as cell-cell adhesion molecules. We postulate that LPS may also affect the expression of matrix-binding integrin receptors, thereby modulating cell-adhesive functions in monocytic cells. To test this hypothesis, we investigated the effects of LPS on the expression of the integrin alpha(5)beta(1), a fibronectin receptor, in a human monocytic cell line (U937) as well as in isolated human peripheral blood mononuclear cells (PBMCs). We found that LPS increased the expression of alpha(5)beta(1) receptors and enhanced the adherence of U937 cells and PBMCs to fibronectin-coated surfaces; this was blocked by anti-alpha(5)beta(1) antibodies. LPS increased alpha(5)-subunit mRNA accumulation in a dose- and time-dependent manner. The induction by LPS occurred, at least in part, at the level of gene transcription as indicated by experiments using alpha(5) intact and deletion promoter constructs. LPS-induced alpha(5) gene transcription was associated with rapid induction of conventional PKC-alpha protein and activity, was blocked by PKC inhibitors, and was mimicked by lipid A. Finally, we found that an anti-CD14 antibody was able to inhibit the LPS response. Overall, the data suggest that LPS stimulates alpha(5) gene transcription via CD14 and PKC-dependent signals to enhance the expression of functional alpha(5)beta(1) receptors in monocytic cells. This process may help stimulate monocytic cell activation and facilitate their migration into fibronectin-containing tissues during infection.
AJP Lung Cellular and Molecular Physiology 08/2004; 287(1):L239-49. · 3.66 Impact Factor
