BACKGROUND: Inhalation allergies, caused by allergens from various kinds of pollen, house dust mites, animal epithelium, and mould fungi, are strongly increasing in frequency. In 2.6% of the cases the allergen source remains unidentified. The present paper describes a so far unknown inhalation allergy which was observed in the case of a patient working with hives. METHODS AND RESULTS: The allergen was characterized by immunoblotting, enzyme-linked immunosorbent assay inhibition, and isoelectrofocusing, using the serum of the patient. It is present in both the bee bodies and the larvae, has a molecular mass of 13 kDa, and an isoelectric point of 5.85. It is thermolabile and does not cross-react with allergens from birch, mugwort and timothy grass pollen, mould fungi, or bee venom. The N-terminal amino acid sequence of allergen from larvae was determined to be (2)QIEELKTRLHT(12). A similar allergen of 13 kDa was also found in Varroa mite accompanying bee populations. CONCLUSION: Honey bees (including the larva stadium) and Varroa mite contain a 13-kDa protein causing an allergic reaction. Presently, there is no evidence whether the case described is a singular phenomenon or whether this allergen is a more common inducer of allergies among subjects exposed to honey bees. However, a bee and Varroa mite allergy has to be considered for beekeepers after exclusion of known inhalation allergies.
BACKGROUND:Inhalation allergies, caused by allergens from various kinds of pollen, house dust mites, animal epithelium, and mould fungi, are strongly increasing in frequency. In 2.6% of the cases the allergen source remains unidentified. The present paper describes a so far unknown inhalation allergy which was observed in the case of a patient working with hives. METHODS AND RESULTS: The allergen was characterized by immunoblotting, enzyme-linked immunosorbent assay inhibition, and isoelectrofocusing, using the serum of the patient. It is present in both the bee bodies and the larvae, has a molecular mass of 13 kDa, and an isoelectric point of 5.85. It is thermolabile and does not cross-react with allergens from birch, mugwort and timothy grass pollen, mould fungi, or bee venom. The N-terminal amino acid sequence of allergen from larvae was determined to be (2)QIEELKTRLHT(12). A similar allergen of 13 kDa was also found in Varroa mite accompanying bee populations. CONCLUSION:Honey bees (including the larva stadium) and Varroa mite contain a 13-kDa protein causing an allergic reaction. Presently, there is no evidence whether the case described is a singular phenomenon or whether this allergen is a more common inducer of allergies among subjects exposed to honey bees. However, a bee and Varroa mite allergy has to be considered for beekeepers after exclusion of known inhalation allergies.
Authors: Jaw Ji Tsai; Shing Hwa Liu; Sui Chu Yin; Cheng Ning Yang; Hong Sheng Hsu; Wen Bao Chen; En Chih Liao; Wen Jane Lee; Hung Chuan Pan; Meei Ling Sheu Journal: PLoS One Date: 2011-09-06 Impact factor: 3.240
Authors: Ayse Yildirim; Gulay Gulbol Duran; Nizami Duran; Kemal Jenedi; Behiye Sezgin Bolgul; Meral Miraloglu; Mustafa Muz Journal: Med Sci Monit Date: 2016-02-09
Authors: Markus Hellner; Daniel Winter; Richard von Georgi; Karsten Münstedt Journal: Evid Based Complement Alternat Med Date: 2007-06-30 Impact factor: 2.629