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Long-term exposure to gaseous formaldehyde promotes allergen-specific IgE-mediated immune responses in a murine model

Graduate School of Health Science, Suzuka University of Medical Science, Suzuka, Mie, Japan

Y Fujimiya

Department of Microbiology and Immunology, Hachinohe University School of Human Health Sciences, Hachinohe, Aomori, Japan

N Kunugita

Department of Health Information Science, School of Health Sciences, University of Occupational and Environmental Health, Kitakyushu, Japan

It has long been questioned that whether exposure to formaldehyde in indoor environments may be a risk factor for developing allergen-specific IgE-mediated inflammatory responses, because there is limited clinical or experimental evidence that formaldehyde is involved in the cascade for IgE production. There is no known lower limit, below which there is no threat of serious allergic symptoms. The present study illustrates that the threshold limit of formaldehyde, 0.08�ppm (as defined by the World Health Organization), did not cause ovalbumin-specific IgE inflammatory immune responses, but higher than threshold concentrations of formaldehyde gas result in both enhanced allergen-specific IgE responses and NK (Natural Killer)-cell activity in peripheral blood cells in a murine model. Thus, formaldehyde gas may be involved in promoting allergic inflammatory effects in subjects primed with specific allergens by NK-cell activation. These results indicate that even threshold concentrations of formaldehyde gas may play a regulatory role for ‘systemic’ cell-mediated immune responses. The extensive use of adhesives for building materials has resulted in higher levels of indoor air pollutants. It is conceivable that increased time indoors may enhance pre-existing allergic symptoms by concomitant exposure to volatile organic compounds and formaldehyde. The affordable limit for formaldehyde might be much lower than currently established levels in indoor environments.

Key Words: formaldehyde • IgE response • indoor environment • ovalbumin

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