Angiogenesis in bronchial asthma.
作者: Krzysztof Pałgan , Zbigniew Bartuzi
关键词:
摘要: Bronchial asthma is a chronic inflammatory disease characterised by airflow obstruction that may be reversed spontaneously or in response to treatment. The airway inflammation can lead structural changes and remodelling consisting of subepithelial layer thickening, smooth muscle hyperplasia angiogenesis. Subepithelial hypervascularity angiogenesis the airways are part wall asthma. Increased vascularity bronchial mucosa closely related expression angiogenic factors like vascular endothelial growth factor (VEGF), angiopoietin hypoxia-inducible (HIF). scope present review summarise roles anagiogenic treatment development.
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sci-hub.se 参考文章(30)
BL Gruber, MJ Marchese, R Kew, Angiogenic Factors Stimulate Mast-Cell Migration Blood. ,vol. 86, pp. 2488- 2493 ,(1995) , 10.1182/BLOOD.V86.7.2488.2488
Yan Sun, Jinrong Wang, Huabing Li, Lifeng Sun, Yulin Wang, Xiuzhen Han, The effects of budesonide on angiogenesis in a murine asthma model. Archives of Medical Science. ,vol. 9, pp. 361- 367 ,(2013) , 10.5114/AOMS.2013.33194
S. Huerta-Yepez, G. J. Baay-Guzman, I. G. Bebenek, R. Hernandez-Pando, M. I. Vega, L. Chi, M. Riedl, D. Diaz-Sanchez, E. Kleerup, D. P. Tashkin, F. J. Gonzalez, B. Bonavida, M. Zeidler, O. Hankinson, Hypoxia Inducible Factor promotes murine allergic airway inflammation and is increased in asthma and rhinitis Allergy. ,vol. 66, pp. 909- 918 ,(2011) , 10.1111/J.1398-9995.2011.02594.X
Markus Mandl, Reinhard Depping, Hypoxia-inducible aryl hydrocarbon receptor nuclear translocator (ARNT) (HIF-1β): is it a rare exception? Molecular Medicine. ,vol. 20, pp. 215- 220 ,(2014) , 10.2119/MOLMED.2014.00032
Georgia Papadaki, Petros Bakakos, Konstantinos Kostikas, Georgios Hillas, Zoi Tsilogianni, Nikolaos G. Koulouris, Spyros Papiris, Stelios Loukides, Vascular endothelial growth factor and cysteinyl leukotrienes in sputum supernatant of patients with asthma Respiratory Medicine. ,vol. 107, pp. 1339- 1345 ,(2013) , 10.1016/J.RMED.2013.06.014
Sheharyar R. Durrani, Ravi K. Viswanathan, William W. Busse, What effect does asthma treatment have on airway remodeling? Current perspectives The Journal of Allergy and Clinical Immunology. ,vol. 128, pp. 439- 448 ,(2011) , 10.1016/J.JACI.2011.06.002
Louis M. Sherwood, Edith E. Parris, Judah Folkman, Tumor Angiogenesis: Therapeutic Implications New England Journal of Medicine. ,vol. 285, pp. 1182- 1186 ,(1971) , 10.1056/NEJM197111182852108
Jesus M. Lopez-Guisa, Claire Powers, Daniele File, Elizabeth Cochrane, Nathalia Jimenez, Jason S. Debley, Airway epithelial cells from asthmatic children differentially express proremodeling factors The Journal of Allergy and Clinical Immunology. ,vol. 129, pp. 990- 997 ,(2012) , 10.1016/J.JACI.2011.11.035
Norbert Meyer, Janine Christoph, Heidi Makrinioti, Philippe Indermitte, Claudio Rhyner, Michael Soyka, Thomas Eiwegger, Maciej Chalubinski, Kerstin Wanke, Hiroyuki Fujita, Paulina Wawrzyniak, Simone Bürgler, Sherrie Zhang, Mübeccel Akdis, Günter Menz, Cezmi Akdis, Inhibition of angiogenesis by IL-32: Possible role in asthma Journal of Allergy and Clinical Immunology. ,vol. 129, pp. 964- 973.e7 ,(2012) , 10.1016/J.JACI.2011.12.1002
A. Kuschel, P. Simon, S. Tug, Functional regulation of HIF-1α under normoxia--is there more than post-translational regulation? Journal of Cellular Physiology. ,vol. 227, pp. 514- 524 ,(2012) , 10.1002/JCP.22798