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14 results on '"Edilson Torres-Gonzalez"'

1. Impact of sex, age and diet on the cysteine/cystine and glutathione/glutathione disulfide plasma redox couples in mice

Author

Stephen Furmanek, Yuxuan Zheng, Walter H. Watson, Jeffrey D. Ritzenthaler, John C. Greenwell, Jesse Roman, and Edilson Torres-Gonzalez

Subjects
0301 basic medicine, Male, medicine.medical_specialty, Aging, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Cystine, Male mice, Biochemistry, Redox, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, Animals, Humans, Cysteine, Molecular Biology, Nutrition and Dietetics, Human studies, Glutathione Disulfide, Glutathione, Cysteine + cystine, Fasting, Diet, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, chemistry, Glutathione disulfide, Female, Oxidation-Reduction, 030217 neurology & neurosurgery
Abstract

Age, sex and diet are well-established risk factors for several diseases. In humans, each of these variables has been linked to differences in plasma redox potentials (Eh) of the glutathione/glutathione disulfide (GSH/GSSG) and cysteine/cystine (Cys/CySS) redox couples. Mice have been very useful for modeling human disease processes, but it is unknown if age, sex and diet affect redox couples in mice as they do in humans. The purpose of the present study was to examine the effects of these factors on plasma redox potentials in C57BL/6J mice. We found that age had no effect on either redox couple in either sex. Plasma Eh Cys/CySS and Eh GSH/GSSG were both more oxidized (more positive) in females than in males. A 24-hour fast negated the sex differences in both redox potentials by oxidizing both redox couples in male mice, while having no effect on Eh Cys/CySS and a smaller effect on Eh GSH/GSSG in female mice. A diet with excess sulfur amino acids reduced the plasma Eh Cys/CySS in females to a level comparable to that seen in male mice. Thus, sex-specific differences in plasma Eh Cys/CySS could be normalized by two different dietary interventions. Some of these findings are consistent with reported human studies, while others are not. Most strikingly, mice do not exhibit age-dependent oxidation of plasma redox potentials. Care must be taken when designing and interpreting mouse studies to investigate redox regulation in humans.

Published
2019

2. Nicotine stimulates collagen type I expression in lung via α7 nicotinic acetylcholine receptors

Author

Jeffrey D. Ritzenthaler, Jesse Roman, Tanmay S. Panchabhai, Edilson Torres-Gonzalez, and Glenn W. Vicary

Subjects
0301 basic medicine, MAPK/ERK pathway, Pathology, Time Factors, alpha7 Nicotinic Acetylcholine Receptor, Interleukin-1beta, Integrin, Extracellular matrix, Nicotine, 0302 clinical medicine, Nicotinic Agonists, Lung, Mice, Knockout, biology, U937 Cells, Extracellular Matrix, Up-Regulation, Nicotinic agonist, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, RNA Interference, Collagen, medicine.symptom, medicine.drug, medicine.medical_specialty, Normal diet, Inflammation, Transfection, Collagen Type I, 03 medical and health sciences, Tissue remodeling, Tobacco, medicine, Animals, Humans, Fibroblast, Cell Proliferation, lcsh:RC705-779, Matrix, Dose-Response Relationship, Drug, Research, lcsh:Diseases of the respiratory system, Fibroblasts, Molecular biology, Mice, Inbred C57BL, 030104 developmental biology, biology.protein
Abstract

Background Tobacco-related chronic lung diseases are characterized by alterations in lung architecture leading to decreased lung function. Knowledge of the exact mechanisms involved in tobacco-induced tissue remodeling and inflammation remains incomplete. We hypothesize that nicotine stimulates the expression of extracellular matrix proteins, leading to relative changes in lung matrix composition, which may affect immune cells entering the lung after injury. Methods Pulmonary fibroblasts from wildtype and α7 nicotinic acetylcholine receptor knockout (α7KO) mice were exposed to nicotine and examined for collagen type 1 mRNA and protein expression. Testing the potential role on immune cell function, pulmonary fibroblasts were retained in culture for 120 h. The fibroblasts were eliminated by osmotic lysis and the remaining matrix-coated dishes were washed thoroughly. U937 cells were incubated on the matrix-coated dishes for 24 h followed by evaluation of IL-1β gene expression. Wildtype or α7KO C57BL/6 mice (female, 8–12 weeks) were fed normal diet and exposed to nicotine in their drinking water (100 μg/ml) for 8-12weeks. Lungs were processed for mRNA, protein, and histology. Statistical significance was determined at p ≤ .05 by two-tailed test or 2-way ANOVA with Bonferroni posttest. Results We found that nicotine stimulated collagen type I mRNA and protein expression in a dose-dependent manner and up to 72 h in primary lung fibroblasts. The stimulatory effect of nicotine was inhibited in α7KO primary lung fibroblasts. Testing the potential role of these events on immune cell function, U937 monocytic cells were cultured atop matrices derived from nicotine-treated lung fibroblasts. These cells expressed more IL-1β than those cultured atop matrices derived from untreated fibroblasts, and antibodies against the α2β1 collagen integrin receptor inhibited the effect. Nicotine also stimulated fibroblast proliferation via MEK-1/ERK, unveiling a potentially amplifying pathway. In vivo, nicotine increased collagen type I expression was detected in wildtype, but not in α7KO mice. Wildtype mice showed increased collagen staining in lung, primarily around the airways. Conclusions These observations suggest that nicotine stimulates fibroblast proliferation and their expression of collagen type I through α7 nAChRs, thereby altering the relative composition of the lung matrix without impacting the overall lung architecture; this may influence inflammatory responses after injury.

Published
2017

3. A senescence accelerated mouse model to study aging in the larynx

Author

Simon M. Mwangi, Grace K. Pavlath, Edilson Torres-Gonzalez, Patricia Kelly, Kenneth L. Brigham, Vasantha L. Kolachala, Michael M. Johns, and Mauricio Rojas

Subjects
Senescence, Larynx, Aging, Pathology, medicine.medical_specialty, Mice, Inbred Strains, Biology, Andrology, Mice, chemistry.chemical_compound, Hyaluronic acid, medicine, Animals, RNA, Messenger, Hyaluronic Acid, Immunohistochemistry, Mice, Inbred C57BL, Blot, medicine.anatomical_structure, Otorhinolaryngology, chemistry, Vocal folds, Models, Animal, Surgery, Collagen, Myofibroblast, Immunostaining
Abstract

Objective Age-related changes in the larynx lead to significant voice impairment and reduced quality of life. There is a need for aged animal models that have practical generation times to study the fundamental changes and new therapeutics for the aging voice. The senescence accelerated prone mouse strain (SAMP) animals experience rapid aging without any experimental manipulation. The main objective of this study was to demonstrate the use of senescence accelerated mice to study aging in the larynx. Study Design Murine model. Setting Department of Animal Resources, Emory University. Subjects and Methods Larynges from five senescence accelerated prone mice, five normal aging senescence resistant mice, and five C57BL/6 mice were harvested and processed for paraffin sections. Histomorphometry was performed for assessment of collagen and hyaluronic acid distribution. In addition, frozen laryngeal tissue was harvested for transcriptional and translational assessment of collagen-1, using real-time polymerase chain reaction with specific primers and Western blots. Myofibroblast assessment was performed by immunostaining for the presence of α-smooth muscle actin. Results The deposition of collagen increased at six months of age in the SAMP vocal fold, and the level of collagen-1 mRNA increased with age. The myofibroblast protein α-smooth muscle actin was also found at a higher concentration in the SAMP vocal tissue. In contrast, the levels of hyaluronic acid in the vocal folds of SAMP mice decreased with age when compared to age-matched C57BL/6 mice. Conclusion SAMP mice show accelerated, age-related changes in the vocal fold that were evident at as early as six months of age. The use of senescence accelerated mice offers promise as a model to study age-related laryngeal changes.

Published
2010

4. Slow-release nanoparticle-encapsulated delivery system for laryngeal injection

Author

Justin S. Golub, Ravi V. Bellamkonda, Michael M. Johns, Edilson Torres-Gonzalez, Oswaldo A. Henriquez, Mauricio Rojas, Young Tae Kim, Vasantha L. Kolachala, Hamed Laroui, Samantha Shams, and Kenneth L. Brigham

Subjects
medicine.medical_specialty, biology, business.industry, Growth factor, medicine.medical_treatment, Pharmacology, In vitro, Nanocapsules, Surgery, Procollagen peptidase, PLGA, chemistry.chemical_compound, Otorhinolaryngology, chemistry, In vivo, biology.protein, Medicine, Hepatocyte growth factor, Bovine serum albumin, business, medicine.drug
Abstract

Objectives/Hypothesis: There is a need for a slow-release system for local delivery of therapeutics to the larynx. Most therapeutic substances, such as steroids or chemotherapeutic agents that are injected into the larynx are cleared rapidly. Repeated laryngeal injection of these substances at short intervals is impractical. Injectable encapsulated poly(lactide-co-glycolide) (PLGA) nanoparticles offer a potential slow-release delivery system for biologically active substances in the larynx. Study Design: Controlled animal study. Methods: PLGA nanoparticles were fabricated using a double emulsion method and were loaded with Texas Red-dextran (NPTR), hepatocyte growth factor (NPHGF), and bovine serum albumin (NPBSA). In vitro release of NPTR, NPBSA, and NPHGF was determined over approximately 2 weeks to assess potential duration of PLGA nanoparticle delivery. In vivo release of NPTR was assessed in a murine vocal fold injection model. The transcriptional effect of NPHGF on procollagen was measured in vitro to assess whether released growth factor retained functionality. Results: In vitro release kinetics demonstrated slow release of NPTR, NPBSA, and NPHGF over 12 to 14 days. In vitro NPTR release correlated with in vivo results. In vivo presence of NPTR occurred up to 7 days compared to 1 day for Texas Red control. In addition, NPHGF ameliorated transforming growth factor-β induced procollagen in vitro in 3T3 fibroblast cells. Conclusions: The results demonstrate the potential utility of nanoparticle encapsulation as an effective method for long-term delivery of specific drugs and biologically active substances to the larynx. Laryngoscope, 2010

Published
2010

5. Activation of Alveolar Macrophages via the Alternative Pathway in Herpesvirus-Induced Lung Fibrosis

Author

Jianguo Xu, Edilson Torres-Gonzalez, Jeffrey D. Ritzenthaler, Jesse Roman, Claudia Corredor, Kenneth L. Brigham, Ana L. Mora, Mauricio Rojas, and Arlene A. Stecenko

Subjects
Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Pulmonary Fibrosis, Clinical Biochemistry, Biology, Transfection, Mice, Idiopathic pulmonary fibrosis, Gammaherpesvirinae, Western blot, Fibrosis, Macrophages, Alveolar, Pulmonary fibrosis, medicine, Animals, Humans, Lung, Molecular Biology, Receptors, Interferon, Mice, Knockout, Arginase, medicine.diagnostic_test, Herpesviridae Infections, Articles, Cell Biology, Macrophage Activation, respiratory system, medicine.disease, biology.organism_classification, Fibronectins, respiratory tract diseases, Mice, Inbred C57BL, Fibronectin, medicine.anatomical_structure, Chronic Disease, NIH 3T3 Cells, biology.protein, Signal Transduction
Abstract

The etiology of idiopathic pulmonary fibrosis (IPF) is unknown. Because viral pathogenesis of IPF has been suggested, we have established a murine model of progressive pulmonary fibrosis by infecting IFN-gammaR-deficient mice (IFN-gammaR(-/-)) with the murine gamma-herpesvirus 68. Because alveolar macrophages in humans with IPF have been implicated in driving the profibrotic response, we studied their role in our model. Chronic herpesvirus infection of the lung was associated with recruitment of alveolar macrophages to areas with epithelial hyperplasia and fibrosis in infected lungs. Using immunohistochemistry, Western blot, and RT-PCR techniques, we demonstrated that recruited alveolar macrophages showed high levels of expression of the proteins Ym1/2, FIZZ1 (found in inflammatory zone 1), insulin-like growth factor-1, and arginase I, and also active transcription of fibronectin, indicative of activation of macrophages by an alternative pathway. Arginase I expression was also evident in interstitial fibroblasts, and increased arginase activity was found in lungs of infected animals. Lung tissue from patients with IPF showed increased expression of arginase I in epithelial cells, fibroblast foci, and alveolar macrophages compared with normal lung. These results suggest that virus-induced upregulation of arginase I could be a mechanism driving lung fibrogenesis.

Published
2006

6. Inhibition of the CXCL12/CXCR4-axis as preventive therapy for radiation-induced pulmonary fibrosis

Author

Chunhai Hao, Kaiming Xu, Huiying Gao, Hui-Kuo Shu, Mauricio Rojas, Cardenes Nayra, Hyunsuk Shim, Samuel Hong, Edilson Torres-Gonzalez, and Younghyoun Yoon

Subjects
Benzylamines, Receptors, CXCR4, Pathology, medicine.medical_specialty, Pulmonary Fibrosis, Population, lcsh:Medicine, Lung injury, Cyclams, CXCR4, Mice, 03 medical and health sciences, 0302 clinical medicine, Heterocyclic Compounds, Fibrosis, Pulmonary fibrosis, medicine, Animals, Progenitor cell, Radiation Injuries, education, lcsh:Science, Lung, 030304 developmental biology, 0303 health sciences, education.field_of_study, Multidisciplinary, medicine.diagnostic_test, business.industry, lcsh:R, Mesenchymal Stem Cells, medicine.disease, Chemokine CXCL12, 3. Good health, Disease Models, Animal, Radiation Injuries, Experimental, Pyrimidines, medicine.anatomical_structure, Bronchoalveolar lavage, 030220 oncology & carcinogenesis, Female, lcsh:Q, Tomography, X-Ray Computed, business, Research Article
Abstract

Background: A devastating late injury caused by radiation is pulmonary fibrosis. This risk may limit the volume of irradiation and compromise potentially curative therapy. Therefore, development of a therapy to prevent this toxicity can be of great benefit for this patient population. Activation of the chemokine receptor CXCR4 by its ligand stromal cell-derived factor 1 (SDF-1/CXCL12) may be important in the development of radiation-induced pulmonary fibrosis. Here, we tested whether MSX-122, a novel small molecule and partial CXCR4 antagonist, can block development of this fibrotic process. Methodology/Principal Findings: The radiation-induced lung fibrosis model used was C57BL/6 mice irradiated to the entire thorax or right hemithorax to 20 Gy. Our parabiotic model involved joining a transgenic C57BL/6 mouse expressing GFP with a wild-type mouse that was subsequently irradiated to assess for migration of GFP+ bone marrow-derived progenitor cells to the irradiated lung. CXCL12 levels in the bronchoalveolar lavage fluid (BALF) and serum after irradiation were determined by ELISA. CXCR4 and CXCL12 mRNA in the irradiated lung was determined by RNase protection assay. Irradiated mice were treated daily with AMD3100, an established CXCR4 antagonist; MSX-122; and their corresponding vehicles to determine impact of drug treatment on fibrosis development. Fibrosis was assessed by serial CTs and histology. After irradiation, CXCL12 levels increased in BALF and serum with a corresponding rise in CXCR4 mRNA within irradiated lungs consistent with recruitment of a CXCR4+ cell population. Using our parabiotic model, we demonstrated recruitment of CXCR4+ bone marrow-derived mesenchymal stem cells, identified based on marker expression, to irradiated lungs. Finally, irradiated mice that received MSX-122 had significant reductions in development of pulmonary fibrosis while AMD3100 did not significantly suppress this fibrotic process. Conclusions/Significance: CXCR4 inhibition by drugs such as MSX-122 may alleviate potential radiation-induced lung injury, presenting future therapeutic opportunities for patients requiring chest irradiation.

Published
2013

7. Role of Endoplasmic Reticulum Stress in Age-Related Susceptibility to Lung Fibrosis

Author

Edilson Torres-Gonzalez, Atsuko Tanaka, Marta Bueno, Mauricio Rojas, Dong-Sheng Cheng, Dan Sorescu, Vasiliy V. Polosukhin, William Lawson, Laurie T. Krug, Timothy S. Blackwell, and Ana L. Mora

Subjects
Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Pulmonary Fibrosis, Clinical Biochemistry, Blotting, Western, Apoptosis, Biology, Endoplasmic Reticulum, Real-Time Polymerase Chain Reaction, Proinflammatory cytokine, Idiopathic pulmonary fibrosis, Mice, Fibrosis, Stress, Physiological, Transforming Growth Factor beta, Pulmonary fibrosis, Fibrocyte, medicine, Animals, Molecular Biology, medicine.diagnostic_test, Endoplasmic reticulum, Cell Biology, Articles, medicine.disease, Immunohistochemistry, Mice, Inbred C57BL, Chronic infection, Bronchoalveolar lavage, Immunology, Bronchoalveolar Lavage Fluid
Abstract

The incidence of idiopathic pulmonary fibrosis (IPF) increases with age. The mechanisms that underlie the age-dependent risk for IPF are unknown. Based on studies that suggest an association of IPF and γherpesvirus infection, we infected young (2-3 mo) and old (≥18 mo) C57BL/6 mice with the murine γherpesvirus 68. Acute murine γherpesvirus 68 infection in aging mice resulted in severe pneumonitis and fibrosis compared with young animals. Progressive clinical deterioration and lung fibrosis in the late chronic phase of infection was observed exclusively in old mice with diminution of tidal volume. Infected aging mice showed higher expression of transforming growth factor-β during the acute phase of infection. In addition, aging, infected mice showed elevation of proinflammatory cytokines and the fibrocyte recruitment chemokine, CXCL12, in bronchoalveolar lavage. Analyses of lytic virus infection and virus reactivation indicate that old mice were able to control chronic infection and elicit antivirus immune responses. However, old, infected mice showed a significant increase in apoptotic responses determined by in situ terminal deoxynucleotidyl transferase dUTP nick end labeling assay, levels of caspase-3, and expression of the proapoptotitc molecule, Bcl-2 interacting mediator. Apoptosis of type II lung epithelial cells in aging lungs was accompanied by up-regulation of endoplasmic reticulum stress marker, binding immunoglobulin protein, and splicing of X-box-binding protein 1. These results indicate that the aging lung is more susceptible to injury and fibrosis associated with endoplasmic reticulum stress, apoptosis of type II lung epithelial cells, and activation of profibrotic pathways.

Published
2012

10. Direct Tracheal Instillation of Solutes into Mouse Lung

Author

Edilson Torres-Gonzalez, Preston Goodson, Mauricio Rojas, and My N. Helms

Subjects
Pathology, medicine.medical_specialty, Lung, Inhalation, General Immunology and Microbiology, business.industry, General Chemical Engineering, General Neuroscience, respiratory system, General Biochemistry, Genetics and Molecular Biology, Trachea, Mice, medicine.anatomical_structure, Instillation, Drug, Intubation, Intratracheal, Medicine, Animals, Mouse Lung, business, Respiratory tract
Abstract

Intratracheal instillations deliver solutes directly into the lungs. This procedure targets the delivery of the instillate into the distal regions of the lung, and is therefore often incorporated in studies aimed at studying alveoli. We provide a detailed survival protocol for performing intratracheal instillations in mice. Using this approach, one can target delivery of test solutes or solids (such as lung therapeutics, surfactants, viruses, and small oligonucleotides) into the distal lung. Tracheal instillations may be the preferred methodology, over inhalation protocols that may primarily target the upper respiratory tract and possibly expose the investigator to potentially hazardous substances. Additionally, in using the tracheal instillation protocol, animals can fully recover from the non-invasive procedure. This allows for making subsequent physiological measurements on test animals, or reinstallation using the same animal. The amount of instillate introduced into the lung must be carefully determined and osmotically balanced to ensure animal recovery. Typically, 30-75 μL instillate volume can be introduced into mouse lung.

Published
2010

13. Twist: a regulator of epithelial-mesenchymal transition in lung fibrosis

Author

Edilson Torres-Gonzalez, Ana L. Mora, Anthony A. Gal, Mauricio Rojas, Veronika P. Pozharskaya, Minal M. Amin, Arlene A. Stecenko, Sheila C. Dollard, and Jesse Roman

Subjects
Pathology, medicine.medical_specialty, Pulmonary Fibrosis, lcsh:Medicine, Lung injury, Biology, Respiratory Medicine/Respiratory Infections, Epithelium, Lung Disorder, Mesoderm, 03 medical and health sciences, Twist transcription factor, Idiopathic pulmonary fibrosis, Mice, 0302 clinical medicine, Respiratory Medicine/Interstitial Lung Diseases, Fibrosis, Pulmonary fibrosis, medicine, Animals, Humans, Epithelial–mesenchymal transition, lcsh:Science, Lung, Herpesviridae, 030304 developmental biology, 0303 health sciences, Multidisciplinary, lcsh:R, Twist-Related Protein 1, Nuclear Proteins, Epithelial Cells, Herpesviridae Infections, Cell Biology, respiratory system, medicine.disease, Cadherins, 3. Good health, respiratory tract diseases, Pulmonary Alveoli, medicine.anatomical_structure, Gene Expression Regulation, 030220 oncology & carcinogenesis, lcsh:Q, Research Article
Abstract

Background Several studies have implicated viral infection as an important factor in the pathogenesis of IPF and related fibrotic lung disorders. Viruses are thought to cause epithelial cell injury and promote epithelial-mesenchymal transition (EMT), a process whereby differentiated epithelial cells undergo transition to a mesenchymal phenotype, and considered a source of fibroblasts in the setting of lung injury. We have demonstrated an association between the epithelial injury caused by chronic herpes virus infection with the murine gamma-herpes virus, MHV68, and lung fibrosis. We hypothesize that EMT in this model of virus-induced pulmonary fibrosis is driven by the expression of the transcription factor Twist. Methods/findings In vitro MHV68 infection of murine lung epithelial cells induced expression of Twist, and mesenchymal markers. Stable overexpression of Twist promoted EMT in MLE15 lung epithelial cells. Transient knockdown expression of Twist resulted in preservation of epithelial phenotype after in vitro MHV68 infection. In concordance, high expression of Twist was found in lung epithelial cells of MHV68 infected mice, but not in mock infected mice. Alveolar epithelial cells from lung tissue of idiopathic pulmonary fibrosis (IPF) patients were strongly positive for Twist. These cells demonstrated features of EMT with low expression of E-cadherin and upregulation of the mesenchymal marker N-cadherin. Finally, IPF tissue with high Twist protein levels was also positive for the herpesvirus, EBV. Conclusions/significance We conclude that Twist contributes to EMT in the model of virus-induced pulmonary fibrosis. We speculate that in some IPF cases, gamma-herpes virus infection with EBV might be a source of injury precipitating EMT through the expression of Twist.

Published
2009

14. 302 CIDOFOVIR THERAPY REDUCES GAMMAHERPESVIRUS (MHV68)-INDUCED PULMONARY FIBROSIS IN INTERFERON-GAMMA RECEPTOR-DEFICIENT MICE

Author

Mauricio Rojas, Jeffrey D. Ritzenthaler, Arlene A. Stecenko, Jesse Roman, Edilson Torres-Gonzalez, Ana L. Mora, Jianguo Xu, and Kenneth L. Brigham

Subjects
Pathology, medicine.medical_specialty, Lung, medicine.diagnostic_test, business.industry, medicine.medical_treatment, General Medicine, respiratory system, medicine.disease, General Biochemistry, Genetics and Molecular Biology, respiratory tract diseases, Lung Disorder, Idiopathic pulmonary fibrosis, chemistry.chemical_compound, medicine.anatomical_structure, Bronchoalveolar lavage, chemistry, Fibrosis, Immunology, Pulmonary fibrosis, medicine, Lung transplantation, business, Cidofovir
Abstract

Idiopathic pulmonary fibrosis (IPF) is a chronic progressive lung disorder of unknown cause. Several studies demonstrate an association between pulmonary infection with the herpesvirus, EBV, and IPF. Based on those observations, we have developed a mouse model in which interferon-gamma receptor-deficient (IFNgR 2/2 ) mice infected with herpesvirus develop lung fibrosis that progresses up to at least 180 days after initial infection (AJP Lung Cell Mol Physiol 289:L711). The purpose of this study was to determine whether antiviral treatment given in this model after infection but before maximal fibrosis would alter progressive lung fibrogenesis. The antiviral agent chosen, cidofovir, is effective at clearing lytic, but not latent, virus. The lungs of IFNgR 2/2 mice were infected with MHV68 by nasal sniff. After 45 days, mice were treated with 7.5 mg/kg cidofovir (or saline) ip weekly for 4 months and then sacrificed 150-180 days after initial infection. Although antiviral-treated animals had persistent lymphocytic infiltrates in subpleural and perivascular areas of the lung, they had significantly less pulmonary fibrosis than controls, reflected in a significant reduction in lung collagen deposition. Bronchoalveolar lavage fluid (BAL) from antiviral-treated animals had lower levels of proinflammatory cytokines (IFNg, IL-6, and TNFa as well as the Th2 cytokine IL-5. BAL levels of the monocyte chemokines MIP1 a and MCP-1 were also lower after antiviral treatment. Decreased fibrosis with cidofovir treatment was associated with lower lung expression of TGFb and fibronectin and lower lung MMP-9 activity. We conclude that eliminating active replication of herpesvirus in the lung prevents progressive fibrosis in this model and that the persistence of mild inflammatory changes may be due to persistent latent infection. We speculate that antiviral therapy might be therapeutic in humans with IPF and lung herpesvirus infection by preventing progressive fibrosis. Funded by ALA Dalsemer Research Grant and McKelvey Lung Transplantation Center.

Published
2006

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