Hypoxia inducible factor promotes murine allergic airway inflammation and is increased in asthma and rhinitis
S Huerta‐Yepez, GJ Baay‐Guzman, IG Bebenek… - Allergy, 2011 - Wiley Online Library
S Huerta‐Yepez, GJ Baay‐Guzman, IG Bebenek, R Hernandez‐Pando, MI Vega, L Chi…
Allergy, 2011•Wiley Online LibraryTo cite this article: Huerta‐Yepez S, Baay‐Guzman GJ, Bebenek IG, Hernandez‐Pando R,
Vega MI, Chi L, Riedl M, Diaz‐Sanchez D, Kleerup E, Tashkin DP, Gonzalez FJ, Bonavida B,
Zeidler M, Hankinson O. Hypoxia Inducible Factor promotes murine allergic airway
inflammation and is increased in asthma and rhinitis. Allergy 2011; 66: 909–918. Abstract
Background: New therapies are necessary to address inadequate asthma control in many
patients. This study sets out to investigate whether hypoxia‐inducible factor (HIF) is essential …
Vega MI, Chi L, Riedl M, Diaz‐Sanchez D, Kleerup E, Tashkin DP, Gonzalez FJ, Bonavida B,
Zeidler M, Hankinson O. Hypoxia Inducible Factor promotes murine allergic airway
inflammation and is increased in asthma and rhinitis. Allergy 2011; 66: 909–918. Abstract
Background: New therapies are necessary to address inadequate asthma control in many
patients. This study sets out to investigate whether hypoxia‐inducible factor (HIF) is essential …
To cite this article: Huerta‐Yepez S, Baay‐Guzman GJ, Bebenek IG, Hernandez‐Pando R, Vega MI, Chi L, Riedl M, Diaz‐Sanchez D, Kleerup E, Tashkin DP, Gonzalez FJ, Bonavida B, Zeidler M, Hankinson O. Hypoxia Inducible Factor promotes murine allergic airway inflammation and is increased in asthma and rhinitis. Allergy 2011; 66: 909–918.
Abstract
Background: New therapies are necessary to address inadequate asthma control in many patients. This study sets out to investigate whether hypoxia‐inducible factor (HIF) is essential for development of allergic airway inflammation (AAI) and therefore a potential novel target for asthma treatment.
Methods: Mice conditionally knocked out for HIF‐1β were examined for their ability to mount an allergic inflammatory response in the lung after intratracheal exposure to ovalbumin. The effects of treating wild‐type mice with either ethyl‐3,4‐dihydroxybenzoate (EDHB) or 2‐methoxyestradiol (2ME), which upregulate and downregulate HIF, respectively, were determined. HIF‐1α levels were also measured in endobronchial biopsies and bronchial fluid of patients with asthma and nasal fluid of patients with rhinitis after challenge.
Results: Deletion of HIF‐1β resulted in diminished AAI and diminished production of ovalbumin‐specific IgE and IgG1. EDHB enhanced the inflammatory response, which was muted upon simultaneous inhibition of vascular endothelial growth factor (VEGF). EDHB and 2ME antagonized each other with regard to their effects on airway inflammation and mucus production. The levels of HIF‐1α and VEGF increased in lung tissue and bronchial fluid of patients with asthma and in the nasal fluid of patients with rhinitis after challenge.
Conclusions: Our results support the notion that HIF is directly involved in the development of AAI. Most importantly, we demonstrate for the first time that HIF‐1α is increased after challenge in patients with asthma and rhinitis. Therefore, we propose that HIF may be a potential therapeutic target for asthma and possibly for other inflammatory diseases.
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