Immunologic characterization of natural and recombinant Mal f 1 yeast allergen

Abstract

Background: Individuals with atopic dermatitis (AD) often have IgE antibodies against protein components of Malassezia furfur . The cDNA encoding one of these proteins (Mal f 1) has recently been cloned and sequenced. Objective: We sought to express recombinant Mal f 1 (rMal f 1) allergen in large quantities by using different expression systems. The primary aim was to characterize the IgE-binding properties of rMal f 1 in comparison with its natural counterpart in M furfur extract. Methods: We have expressed and purified Mal f 1 from prokaryotic ( Escherichia coli ) and eukaryotic cells (baculovirus-infected insect cells). The rMal f 1 produced in both systems has been tested for the ability to be recognized by IgE from patients with specific serum IgE to M furfur by using immunoblotting and the Pharmacia CAP System RAST FEIA. Results: Sixty-one percent of sera from 95 patients showed positive RAST responses to the rMal f 1 produced in the baculovirus expression system and 43% to the E coli –produced rMal f 1. Both the E coli – and baculovirus-produced proteins can specifically inhibit IgE binding to a 36-kd protein band (Mal f 1) in immunoblotting, indicating that the recombinant proteins contain the majority, if not all, the IgE-binding epitopes of Mal f 1. Recombinant Mal f 1 is able to release histamine from basophils of an atopic individual. Conclusion: We have expressed and purified rMal f 1, which can bind IgE in a way resembling natural Mal f 1. The ability to produce recombinant allergens with similar properties to their native counterparts has many potential uses, such as accurately diagnosing causes of IgE-mediated allergy. (J Allergy Clin Immunol 1999;103:877-84.)