BACKGROUND: Cross-reactions between latex and plant foods (mainly fruits) have been widely reported. Although the cross-reactive components have not been well identified, class I chitinases seem to be the most credible candidates in chestnut, avocado, and banana. OBJECTIVE: We sought to evaluate the potential role of chitinases and complex glycans as cross-reactive determinants linked to latex-food allergy. METHODS: Extracts from 20 different plant foods and from latex were obtained. These preparations were immunodetected with anticomplex glycans and antichitinase sera raised in rabbits, as well as with sera from patients with latex-fruit allergy and sera from patients allergic to latex without food allergy. Immunoblot inhibition assays were carried out by using a purified class I chitinase from avocado or latex extract as inhibitors. RESULTS: Reactive proteins of approximately 30 to 45 kd (putative class I chitinases) were recognized by both specific polyclonal antibodies to chitinases and sera from patients with latex-fruit allergy in chestnut, cherimoya, passion fruit, kiwi, papaya, mango, tomato, and flour wheat extracts. Prs a 1, the major allergen and class I chitinase from avocado, and the latex extract strongly or fully inhibited IgE binding by these components when tested in immunoblot inhibition assays. Additional bands of 16 to 20 kd, 23 to 28 kd, and 50 to 70 kd were detected by the antichitinase serum but not with the patients' pooled sera. The putative 30- to 45-kd chitinases present in different food extracts did not react with a pool of sera from subjects allergic to latex but not to fruit. Very different immunodetection patterns were produced with the anticomplex glycan serum and the sera from allergic patients. CONCLUSIONS: Putative class I chitinases seem to be relevant cross-reactive components in foods associated with the latex-fruit syndrome, but do not play a specific role in allergy to latex but not to fruit. Cross-reactive carbohydrate determinants are not important structures in the context of latex-fruit cross-sensitization.
BACKGROUND: Cross-reactions between latex and plant foods (mainly fruits) have been widely reported. Although the cross-reactive components have not been well identified, class I chitinases seem to be the most credible candidates in chestnut, avocado, and banana. OBJECTIVE: We sought to evaluate the potential role of chitinases and complex glycans as cross-reactive determinants linked to latex-food allergy. METHODS: Extracts from 20 different plant foods and from latex were obtained. These preparations were immunodetected with anticomplex glycans and antichitinase sera raised in rabbits, as well as with sera from patients with latex-fruit allergy and sera from patients allergic to latex without food allergy. Immunoblot inhibition assays were carried out by using a purified class I chitinase from avocado or latex extract as inhibitors. RESULTS: Reactive proteins of approximately 30 to 45 kd (putative class I chitinases) were recognized by both specific polyclonal antibodies to chitinases and sera from patients with latex-fruit allergy in chestnut, cherimoya, passion fruit, kiwi, papaya, mango, tomato, and flour wheat extracts. Prs a 1, the major allergen and class I chitinase from avocado, and the latex extract strongly or fully inhibited IgE binding by these components when tested in immunoblot inhibition assays. Additional bands of 16 to 20 kd, 23 to 28 kd, and 50 to 70 kd were detected by the antichitinase serum but not with the patients' pooled sera. The putative 30- to 45-kd chitinases present in different food extracts did not react with a pool of sera from subjects allergic to latex but not to fruit. Very different immunodetection patterns were produced with the anticomplex glycan serum and the sera from allergic patients. CONCLUSIONS: Putative class I chitinases seem to be relevant cross-reactive components in foods associated with the latex-fruit syndrome, but do not play a specific role in allergy to latex but not to fruit. Cross-reactive carbohydrate determinants are not important structures in the context of latex-fruit cross-sensitization.
Authors: Shanna Bastiaan-Net; Marit Reitsma; Jan H G Cordewener; Johanna P M van der Valk; Twan A H P America; Anthony E J Dubois; Roy Gerth van Wijk; Huub F J Savelkoul; Nicolette W de Jong; Harry J Wichers Journal: Int Arch Allergy Immunol Date: 2018-10-26 Impact factor: 2.749