BACKGROUND: Cow's milk (CM) is one of the leading causes of food allergy in children. However, approximately 85% of milk-allergic children become clinically tolerant to CM within the first 3 years of life. The mechanisms involved in the achievement of tolerance remain unknown. OBJECTIVE: To study whether IgE antibodies from children with persistent cow's milk allergy (CMA) differ from children who become clinically tolerant in their ability to recognize linear and conformational epitopes of alpha(s1)- and beta-casein. METHODS: Thirty-six milk-allergic children were included in the study: 11 of the children became clinically tolerant, and 25 had persistent CMA. Blood was obtained from all patients during the time they showed clinical reactions to milk challenge. Six non-milk-allergic children served as controls. Specific IgE antibodies against linear (denatured) as well as conformational (native) milk proteins were determined by probing dot-blots with patients' sera. In addition, selected decapeptides from alpha(s1)- and beta-casein, previously found to be suggestive of persistent CMA, were synthesized on a cellulose-derivatized membrane and probed with individual sera from 10 patients who outgrew CMA and from 10 patients with persistent CMA. RESULTS: Analysis of immunodot-blots showed that, in comparison to tolerant patients, milk-allergic children with persistent symptoms had a significantly higher ratio of specific IgE antibodies to linearized than to native alpha- and beta-casein (P < 0.005 and P < 0.02, respectively). Comparing the selected decapeptides, six of the 10 patients with persistent allergy recognized the peptide corresponding to amino acids 69-78 from alpha(s1)-casein while none of the patients who outgrew CMA had IgE binding to this epitope. CONCLUSION: Patients with persistent milk allergy possess higher detectable levels of IgE antibodies to linear epitopes from alpha(s1)- and beta-casein than children who have achieved tolerance. Specific IgE binding to particular linear epitopes in alpha(s1)-casein may be a predictive factor for persistence of CMA.
BACKGROUND:Cow's milk (CM) is one of the leading causes of food allergy in children. However, approximately 85% of milk-allergicchildren become clinically tolerant to CM within the first 3 years of life. The mechanisms involved in the achievement of tolerance remain unknown. OBJECTIVE: To study whether IgE antibodies from children with persistent cow's milk allergy (CMA) differ from children who become clinically tolerant in their ability to recognize linear and conformational epitopes of alpha(s1)- and beta-casein. METHODS: Thirty-six milk-allergicchildren were included in the study: 11 of the children became clinically tolerant, and 25 had persistent CMA. Blood was obtained from all patients during the time they showed clinical reactions to milk challenge. Six non-milk-allergicchildren served as controls. Specific IgE antibodies against linear (denatured) as well as conformational (native) milk proteins were determined by probing dot-blots with patients' sera. In addition, selected decapeptides from alpha(s1)- and beta-casein, previously found to be suggestive of persistent CMA, were synthesized on a cellulose-derivatized membrane and probed with individual sera from 10 patients who outgrew CMA and from 10 patients with persistent CMA. RESULTS: Analysis of immunodot-blots showed that, in comparison to tolerant patients, milk-allergicchildren with persistent symptoms had a significantly higher ratio of specific IgE antibodies to linearized than to native alpha- and beta-casein (P < 0.005 and P < 0.02, respectively). Comparing the selected decapeptides, six of the 10 patients with persistent allergy recognized the peptide corresponding to amino acids 69-78 from alpha(s1)-casein while none of the patients who outgrew CMA had IgE binding to this epitope. CONCLUSION:Patients with persistent milk allergy possess higher detectable levels of IgE antibodies to linear epitopes from alpha(s1)- and beta-casein than children who have achieved tolerance. Specific IgE binding to particular linear epitopes in alpha(s1)-casein may be a predictive factor for persistence of CMA.
Authors: L Diego Archila; Fatima S Khan; Nupur Bhatnagar; David Robinson; Mary L Farrington; William W Kwok Journal: J Allergy Clin Immunol Date: 2017-03-23 Impact factor: 10.793
Authors: Jennifer S Kim; Anna Nowak-Węgrzyn; Scott H Sicherer; Sally Noone; Erin L Moshier; Hugh A Sampson Journal: J Allergy Clin Immunol Date: 2011-05-23 Impact factor: 10.793
Authors: Lisa M Bartnikas; William J Sheehan; Elaine B Hoffman; Perdita Permaul; Anahita F Dioun; James Friedlander; Sachin N Baxi; Lynda C Schneider; Wanda Phipatanakul Journal: Ann Allergy Asthma Immunol Date: 2012-08-21 Impact factor: 6.347