BACKGROUND: Food allergy is a serious health problem for which a validated outbred large animal model would be useful in comparative investigations of immunopathogenesis and treatment and in testing hypotheses relevant to complex host-environmental interactions in predisposition to and expression of food allergy. OBJECTIVE: To establish a neonatal swine model of IgE-mediated allergy to the egg protein ovomucoid (Ovm) that may mimic human allergy. METHODS: In order to induce Ovm sensitivity, piglets at days 14, 21 and 35 of age were sensitized by intraperitoneal injection of 100 microg of crude Ovm and cholera toxin (50, 25 or 10 microg). Controls received 50 microg of cholera toxin in phosphate-buffered saline. The animals were challenged orally on day 46 with a mixture of egg white and yoghurt. Outcomes were reported as direct skin tests, clinical signs, IgG-related antibody and passive cutaneous anaphylaxis. RESULTS: Sensitized pigs developed immediate wheal and flare reactions, and after oral challenge, sensitized but not control animals displayed signs of allergic hypersensitivity. Serum IgG-related, Ovm-specific antibodies were detected only in the sensitized pigs and IgE-mediated antibody response to Ovm was confirmed by positive passive cutaneous anaphylaxis reactions induced by sera of sensitized but not by heat-treated sera from Ovm-sensitized pigs or sera of unsensitized control pigs. CONCLUSION: The present results confirm induction of Ovm-specific allergy in pigs and provide opportunity to investigate allergic predisposition and immunopathogenesis of IgE-induced Ovm allergy using outbred neonatal swine. This may better simulate allergic disease in humans and allow investigation of candidate prophylactic and therapeutic approaches. Copyright 2007 S. Karger AG, Basel.
BACKGROUND:Food allergy is a serious health problem for which a validated outbred large animal model would be useful in comparative investigations of immunopathogenesis and treatment and in testing hypotheses relevant to complex host-environmental interactions in predisposition to and expression of food allergy. OBJECTIVE: To establish a neonatal swine model of IgE-mediated allergy to the egg protein ovomucoid (Ovm) that may mimic humanallergy. METHODS: In order to induce Ovm sensitivity, piglets at days 14, 21 and 35 of age were sensitized by intraperitoneal injection of 100 microg of crude Ovm and cholera toxin (50, 25 or 10 microg). Controls received 50 microg of cholera toxin in phosphate-buffered saline. The animals were challenged orally on day 46 with a mixture of egg white and yoghurt. Outcomes were reported as direct skin tests, clinical signs, IgG-related antibody and passive cutaneous anaphylaxis. RESULTS: Sensitized pigs developed immediate wheal and flare reactions, and after oral challenge, sensitized but not control animals displayed signs of allergichypersensitivity. Serum IgG-related, Ovm-specific antibodies were detected only in the sensitized pigs and IgE-mediated antibody response to Ovm was confirmed by positive passive cutaneous anaphylaxis reactions induced by sera of sensitized but not by heat-treated sera from Ovm-sensitized pigs or sera of unsensitized control pigs. CONCLUSION: The present results confirm induction of Ovm-specific allergy in pigs and provide opportunity to investigate allergic predisposition and immunopathogenesis of IgE-induced Ovm allergy using outbred neonatal swine. This may better simulate allergic disease in humans and allow investigation of candidate prophylactic and therapeutic approaches. Copyright 2007 S. Karger AG, Basel.
Authors: C F Inman; K Haverson; S R Konstantinov; P H Jones; C Harris; H Smidt; B Miller; M Bailey; C Stokes Journal: Clin Exp Immunol Date: 2010-02-22 Impact factor: 4.330