BACKGROUND: Peanut allergy is the most common food-related cause of lethal anaphylaxis and, unlike other food allergies, typically persists into adulthood. Resistance to digestion and dendritic cell activation by the major peanut allergen Ara h 1 are reported to contribute to its allergenicity. OBJECTIVE: We sought to evaluate whether peanut molecules might also promote anaphylaxis through an innate immune mechanism. METHODS: Naive mice were treated with a beta-adrenergic receptor antagonist and long-acting IL-4 to increase sensitivity to vasoactive mediators and injected with peanut extract (PE). Shock was detected and quantified by means of rectal thermometry. Gene-deficient mice and specific antagonists were used to determine the roles of specific cell types, complement, Fc receptors, and vasoactive mediators in shock pathogenesis. RESULTS: PE induces dose-dependent shock. PE activates complement in vivo in mice and in vitro in mice and human subjects. C3a and, to a lesser extent, stimulatory immunoglobulin receptors contribute to PE-induced shock. PE-induced shock depends more on macrophages and basophils than on mast cells. Platelet-activating factor and, to a lesser extent, histamine contribute to PE-induced shock. PE induces shock in the absence of the adaptive immune system. LPS contamination is not responsible for PE-induced shock. PE and IgE-mediated mast cell degranulation synergistically induce shock. Tree nuts have similar effects to PE, and skim milk and egg white do not. CONCLUSION: Peanuts can contribute to shock by causing production of C3a, which stimulates macrophages, basophils, and mast cells to produce platelet-activating factor and histamine.
BACKGROUND:Peanutallergy is the most common food-related cause of lethal anaphylaxis and, unlike other food allergies, typically persists into adulthood. Resistance to digestion and dendritic cell activation by the major peanut allergen Ara h 1 are reported to contribute to its allergenicity. OBJECTIVE: We sought to evaluate whether peanut molecules might also promote anaphylaxis through an innate immune mechanism. METHODS: Naive mice were treated with a beta-adrenergic receptor antagonist and long-acting IL-4 to increase sensitivity to vasoactive mediators and injected with peanut extract (PE). Shock was detected and quantified by means of rectal thermometry. Gene-deficient mice and specific antagonists were used to determine the roles of specific cell types, complement, Fc receptors, and vasoactive mediators in shock pathogenesis. RESULTS:PE induces dose-dependent shock. PE activates complement in vivo in mice and in vitro in mice and human subjects. C3a and, to a lesser extent, stimulatory immunoglobulin receptors contribute to PE-induced shock. PE-induced shock depends more on macrophages and basophils than on mast cells. Platelet-activating factor and, to a lesser extent, histamine contribute to PE-induced shock. PE induces shock in the absence of the adaptive immune system. LPS contamination is not responsible for PE-induced shock. PE and IgE-mediated mast cell degranulation synergistically induce shock. Tree nuts have similar effects to PE, and skim milk and egg white do not. CONCLUSION:Peanuts can contribute to shock by causing production of C3a, which stimulates macrophages, basophils, and mast cells to produce platelet-activating factor and histamine.
Authors: S J Maleki; R A Kopper; D S Shin; C W Park; C M Compadre; H Sampson; A W Burks; G A Bannon Journal: J Immunol Date: 2000-06-01 Impact factor: 5.422
Authors: R S Ames; D Lee; J J Foley; A J Jurewicz; M A Tornetta; W Bautsch; B Settmacher; A Klos; K F Erhard; R D Cousins; A C Sulpizio; J P Hieble; G McCafferty; K W Ward; J L Adams; W E Bondinell; D C Underwood; R R Osborn; A M Badger; H M Sarau Journal: J Immunol Date: 2001-05-15 Impact factor: 5.422
Authors: H S Skolnick; M K Conover-Walker; C B Koerner; H A Sampson; W Burks; R A Wood Journal: J Allergy Clin Immunol Date: 2001-02 Impact factor: 10.793