Recombinant bacille Calmette–Guérin (BCG) expressing human interferon-alpha 2B demonstrates enhanced immunogenicity

Abstract

To increase its immunostimulatory properties, BCG was genetically engineered to secrete recombinant human interferon-alpha 2B (rhIFN-alpha) under control of the mycobacterial heat shock protein (hsp)60 promoter and the alpha antigen signal sequence. Expression of rhIFN-alpha was readily detectable by ELISA and on Western blotting. When compared with control BCG, rhIFN-alpha BCG was substantially more active in inducing the production of IFN-gamma and IFN-inducible protein 10 (IP-10) from human peripheral blood mononuclear cells, while IL-10 production was correspondingly decreased. These effects were reversible upon antibody neutralization of rhIFN-alpha. Among 10 patients tested, rhIFN-alpha BCG enhanced IFN-gamma production in all patients ranging from 1.4- to 23.7-fold with a general trend toward greatest enhancement among those with weakest baseline responses to control BCG. Correspondingly, rhIFN-alpha BCG decreased IL-10 production in all patients by 1.2-4.8-fold. The onset of IFN-gamma production induced by rhIFN-alpha BCG was also more rapid, occurring within 4 h after stimulation versus > 24 h with wild-type BCG. The observation that the maximum IFN-gamma induction depends on the simultaneous presence of both IFN-alpha and BCG highlights the advantages of rhIFN-alpha BCG. Taken together, these immunostimulatory properties of rhIFN-alpha BCG suggest that it may be a superior agent for immunotherapeutic protocols involving live BCG in humans.