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1.
The Korean Journal of Internal Medicine ; : 281-290, 2014.
Article in English | WPRIM | ID: wpr-62924

ABSTRACT

Pulmonary fibrosis is a fatal progressive disease with no effective therapy. Transforming growth factor (TGF)-beta1 has long been regarded as a central mediator of tissue fibrosis that involves multiple organs including skin, liver, kidney, and lung. Thus, TGF-beta1 and its signaling pathways have been attractive therapeutic targets for the development of antifibrotic drugs. However, the essential biological functions of TGF-beta1 in maintaining normal immune and cellular homeostasis significantly limit the effectiveness of TGF-beta1-directed therapeutic approaches. Thus, targeting downstream mediators or signaling molecules of TGF-beta1 could be an alternative approach that selectively inhibits TGF-beta1-stimulated fibrotic tissue response while preserving major physiological function of TGF-beta1. Recent studies from our laboratory revealed that TGF-beta1 crosstalk with epidermal growth factor receptor (EGFR) signaling by induction of amphiregulin, a ligand of EGFR, plays a critical role in the development or progression of pulmonary fibrosis. In addition, chitotriosidase, a true chitinase in humans, has been identified to have modulating capacity of TGF-beta1 signaling as a new biomarker and therapeutic target of scleroderma-associated pulmonary fibrosis. These newly identified modifiers of TGF-beta1 effector function significantly enhance the effectiveness and flexibility in targeting pulmonary fibrosis in which TGF-beta1 plays a significant role.


Subject(s)
Animals , Humans , Drug Design , Hexosaminidases/antagonists & inhibitors , Lung/drug effects , Molecular Targeted Therapy , Pulmonary Fibrosis/drug therapy , Receptor Cross-Talk , ErbB Receptors/antagonists & inhibitors , Receptors, Transforming Growth Factor beta/antagonists & inhibitors , Signal Transduction , Transforming Growth Factor beta1/antagonists & inhibitors
2.
Journal of Korean Medical Science ; : 579-585, 2005.
Article in English | WPRIM | ID: wpr-147623

ABSTRACT

Allergic asthma is associated with persistent functional and structural changes in the airways and involves many different cell types. Many proteins involved in allergic asthma have been identified individually, but complete protein profiles (proteome) have not yet been reported. Here we have used a differential proteome mapping strategy to identify tissue proteins that are differentially expressed in mice with allergic asthma and in normal mice. Mouse lung tissue proteins were separated using two-dimensional gel electrophoresis over a pH range between 4 and 7, digested, and then analyzed by matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MS). The proteins were identified using automated MS data acquisition. The resulting data were searched against a protein database using an internal Mascot search routine. This approach identified 15 proteins that were differentially expressed in the lungs of mice with allergic asthma and normal mice. All 15 proteins were identified by MS, and 9 could be linked to asthma-related symptoms, oxidation, or tissue remodeling. Our data suggest that these proteins may prove useful as surrogate biomarkers for quantitatively monitoring disease state progression or response to therapy.


Subject(s)
Animals , Male , Mice , Asthma/genetics , Comparative Study , Disease Models, Animal , Electrophoresis, Gel, Two-Dimensional , Gene Expression/immunology , Gene Expression Profiling , Lung/immunology , Mice, Inbred BALB C , Ovalbumin/immunology , Proteome/analysis , Proteomics/methods , RNA, Messenger/genetics , Reverse Transcriptase Polymerase Chain Reaction , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
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