Allergens of honey bee venom

Abstract

The allergenic activities of four purified components of honeybee venom were studied by using histamine release from leukocytes of bee sting-allergic patients. The components studied were hyaluronidase, phospholipase A 2, melittin and apamin with molecular weights, respectively, of about 50,000, 15,800, 2840 and 2038 d. In six of the seven patients studied, hyaluronidase and phospholipase were, respectively, on the average about two and eight times more active by weight than the venom. The situation was reversed in one patient in that hyaluronidase and phospholipase A 2 were, respectively, 90 and 0.5 times more active than the venom. With this single exception, hyaluronidase and phospholipase were about equally active on a molar basis as allergens. Melittin was on the average about one-tenth as active as the venom, and apamin was inactive as an allergen. Chemical modifications of phospholipase A 2 were carried out. Succinylation of eight of its eleven amino groups yielded a derivative that retained 4% of the enzymic activity of the native enzyme. Reduction and carboxymethylation of its four disulfide bonds or cyanogen bromide cleavage of its three methionyl bonds yielded enzymatically inactive derivatives. These derivatives showed varying decreases of allergenic activities when compared to the native enzyme. The results indicate that the antigenic determinants of phospholipase depend on the charge, the amino acid sequence and the conformation of the molecule.