Identification of Circulating Fibrocytes as Precursors of Bronchial Myofibroblasts in Asthma1
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M. Stacey | S. Mattoli | Guo Sun | Matthias Schmidt | L. Mori | G. Sun
[1] The detection of the mRNAs of procollagen types I, II and III in human fetal fingers by in situ hybridization using digoxigenin-labelled oligonucleotide probes , 1995, The Histochemical Journal.
[2] I. Grzelewska-Rzymowska,et al. [Airway remodeling in asthma]. , 2003, Pneumonologia i alergologia polska.
[3] Rakesh K. Kumar,et al. Modeling allergic asthma in mice: pitfalls and opportunities. , 2002, American journal of respiratory cell and molecular biology.
[4] R. Djukanović,et al. The contribution of interleukin (IL)-4 and IL-13 to the epithelial-mesenchymal trophic unit in asthma. , 2001, American journal of respiratory cell and molecular biology.
[5] C. Herrera,et al. Early‐acting cytokine‐driven ex vivo expansion of mobilized peripheral blood CD34+ cells generates post‐mitotic offspring with preserved engraftment ability in non‐obese diabetic/severe combined immunodeficient mice , 2001, British journal of haematology.
[6] R. Bucala,et al. Peripheral Blood Fibrocytes: Differentiation Pathway and Migration to Wound Sites1 , 2001, The Journal of Immunology.
[7] T. Horie,et al. IL-4 and IL-13 induce myofibroblastic phenotype of human lung fibroblasts through c-Jun NH2-terminal kinase-dependent pathway. , 2001, The Journal of allergy and clinical immunology.
[8] K. Sekizawa,et al. Triggering the induction of myofibroblast and fibrogenesis by airway epithelial shedding. , 2001, American journal of respiratory cell and molecular biology.
[9] R. Bucala,et al. Peripheral blood fibrocytes: Mesenchymal precursor cells and the pathogenesis of fibrosis , 2000, Current rheumatology reports.
[10] P. Noble,et al. A cytokine reborn? Endothelin-1 in pulmonary inflammation and fibrosis. , 2000, American journal of respiratory cell and molecular biology.
[11] J Bousquet,et al. Asthma. From bronchoconstriction to airways inflammation and remodeling. , 2000, American journal of respiratory and critical care medicine.
[12] C. Parish,et al. Fluorescent dyes for lymphocyte migration and proliferation studies , 1999, Immunology and cell biology.
[13] S. Peters,et al. Airway remodeling and persistent airway obstruction in asthma. , 1999, The Journal of allergy and clinical immunology.
[14] G. Gabbiani,et al. Mechanisms of myofibroblast activity and phenotypic modulation. , 1999, Experimental cell research.
[15] A B West,et al. Myofibroblasts: paracrine cells important in health and disease. , 2000, Transactions of the American Clinical and Climatological Association.
[16] S. Holgate,et al. Growth factors secreted by bronchial epithelial cells control myofibroblast proliferation: an in vitro co-culture model of airway remodeling in asthma. , 1999, Laboratory investigation; a journal of technical methods and pathology.
[17] M. Collector,et al. Hematopoietic stem cell tracking in vivo: a comparison of short-term and long-term repopulating cells. , 1999, Blood.
[18] A. Bellini,et al. Kinetics of eotaxin expression and its relationship to eosinophil accumulation and activation in bronchial biopsies and bronchoalveolar lavage (BAL) of asthmatic patients after allergen inhalation , 1998, Clinical and experimental immunology.
[19] S. Isogai,et al. Bronchial subepithelial fibrosis and expression of matrix metalloproteinase-9 in asthmatic airway inflammation. , 1998, The Journal of allergy and clinical immunology.
[20] M. Stacey,et al. Endothelin-1 Induces Bronchial Myofibroblast Differentiation , 1997, Peptides.
[21] P. Paré,et al. The functional consequences of airway remodeling in asthma. , 1997, Monaldi archives for chest disease = Archivio Monaldi per le malattie del torace.
[22] J. Bousquet,et al. Transforming Growth Factor- β Expression in Mucosal Biopsies in Asthma and Chronic Bronchitis , 1997 .
[23] P. Howarth,et al. Transforming growth factor-beta 1 in asthma. Measurement in bronchoalveolar lavage fluid. , 1997, American journal of respiratory and critical care medicine.
[24] R. Bucala,et al. The peripheral blood fibrocyte is a potent antigen-presenting cell capable of priming naive T cells in situ. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[25] P. O'Byrne,et al. Myofibroblast involvement in the allergen-induced late response in mild atopic asthma. , 1997, American journal of respiratory cell and molecular biology.
[26] J. Wilson,et al. The measurement of reticular basement membrane and submucosal collagen in the asthmatic airway , 1997, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.
[27] P. Howarth,et al. Airway wall remodelling in asthma. , 1997, Thorax.
[28] R. Flavell,et al. Targeted expression of IL-11 in the murine airway causes lymphocytic inflammation, bronchial remodeling, and airways obstruction. , 1996, The Journal of clinical investigation.
[29] P. Howarth,et al. CYTOKINE PRODUCTION BY CELL CULTURES FROM BRONCHIAL SUBEPITHELIAL MYOFIBROBLASTS , 1996, The Journal of pathology.
[30] S. Carpi,et al. Endothelin-1 induces increased fibronectin expression in human bronchial epithelial cells. , 1996, Biochemical and biophysical research communications.
[31] J F Keij,et al. Homing of fluorescently labeled murine hematopoietic stem cells. , 1996, Experimental hematology.
[32] M. Fackler,et al. CD34: structure, biology, and clinical utility. , 1996, Blood.
[33] A. Bellini,et al. Bronchial epithelial cells of atopic patients with asthma lack the ability to inactivate allergens. , 1995, Biochemical and biophysical research communications.
[34] S. Carpi,et al. Constitutive expression of endothelin in bronchial epithelial cells of patients with symptomatic and asymptomatic asthma and modulation by histamine and interleukin-1. , 1995, The Journal of allergy and clinical immunology.
[35] R. Bucala,et al. Circulating Fibrocytes Define a New Leukocyte Subpopulation That Mediates Tissue Repair , 1994, Molecular medicine.
[36] P. Romagnoli,et al. Myofibroblast and elastic and collagen fiber hyperplasia in the bronchial mucosa: a possible basis for the progressive irreversibility of airway obstruction in chronic asthma. , 1994, Pathologica.
[37] E. Yelin,et al. Work disability among adults with asthma. , 1993, Chest.
[38] R. Franchis,et al. Increased expression of endothelin in bronchial epithelial cells of asthmatic patients and effect of corticosteroids. , 1992, The American review of respiratory disease.
[39] J. Bousquet,et al. Asthma: a disease remodeling the airways , 1992, Allergy.
[40] S. Mattoli,et al. Levels of endothelin in the bronchoalveolar lavage fluid of patients with symptomatic asthma and reversible airflow obstruction. , 1991, The Journal of allergy and clinical immunology.
[41] P. Howarth,et al. Myofibroblasts and subepithelial fibrosis in bronchial asthma. , 1990, American journal of respiratory cell and molecular biology.
[42] S. Holgate,et al. SUBEPITHELIAL FIBROSIS IN THE BRONCHI OF ASTHMATICS , 1989, The Lancet.
[43] W. T. Chen,et al. Transforming growth factor beta stimulates the expression of fibronectin and of both subunits of the human fibronectin receptor by cultured human lung fibroblasts. , 1988, The Journal of biological chemistry.
[44] P. O'Byrne,et al. Late asthmatic responses. , 1987, The American review of respiratory disease.
[45] M. Kaliner,et al. Late Phase Allergic Reactions , 1983, International journal of dermatology.
[46] B. Helpap,et al. Selective staining of eosinophils and their immature precursors in tissue sections and autoradiographs with Congo red. , 1981, Stain technology.
[47] E. Middleton,et al. Allergy, principles and practice , 1978 .