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Journal Article
Research Support, Non-U.S. Gov't
'Entopy': localized mucosal allergic disease in the absence of systemic responses for atopy.
Clinical and Experimental Allergy 2003 October
BACKGROUND: The Th2 immune response in the nasal mucosa of subjects with allergic rhinitis is mediated by allergen-specific IgE. Moreover, these subjects show positive responses for markers of systemic atopy, including allergen-specific skin sensitivity and raised serum IgE titres. In contrast, idiopathic rhinitis (IR) subjects with similar histological nasal mucosal features differ in being defined as non-allergic because they have negative atopic responses.
OBJECTIVE: We hypothesized that it is possible to have an allergic Th2 disease pathway localized in the nasal mucosa of 'non-allergic' rhinitis subjects despite an absence of atopic responses.
METHODS: The presence of house dust mite and grass pollen-specific IgE antibodies was investigated in non-atopic (n=10) and atopic (n=11) subjects with persistent rhinitis and compared to normal (n=12) control subjects. Biotin-labelled allergen was used to localize specific allergen-binding antibodies in situ in sections of nasal mucosa.
RESULTS: Grass pollen allergen binding was detected in the nasal mucosa of 3/10 non-atopic IR subjects but, in contrast, dust mite-specific antibodies were not detected. Specific antibodies were present in a total of 8/11 mucosal samples from the allergic group, but none was detected in normal control tissues.
CONCLUSION: These findings support the concept of localized nasal allergy in 'non-atopic' rhinitis subjects. We propose the term 'entopy' to define this phenomenon and believe that this concept has a wider implication for localized allergic responses in other mucosal sites.
OBJECTIVE: We hypothesized that it is possible to have an allergic Th2 disease pathway localized in the nasal mucosa of 'non-allergic' rhinitis subjects despite an absence of atopic responses.
METHODS: The presence of house dust mite and grass pollen-specific IgE antibodies was investigated in non-atopic (n=10) and atopic (n=11) subjects with persistent rhinitis and compared to normal (n=12) control subjects. Biotin-labelled allergen was used to localize specific allergen-binding antibodies in situ in sections of nasal mucosa.
RESULTS: Grass pollen allergen binding was detected in the nasal mucosa of 3/10 non-atopic IR subjects but, in contrast, dust mite-specific antibodies were not detected. Specific antibodies were present in a total of 8/11 mucosal samples from the allergic group, but none was detected in normal control tissues.
CONCLUSION: These findings support the concept of localized nasal allergy in 'non-atopic' rhinitis subjects. We propose the term 'entopy' to define this phenomenon and believe that this concept has a wider implication for localized allergic responses in other mucosal sites.
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