Monoclonal antibodies that inhibit mitogenic activity of Mycoplasma pulmonis

Abstract

Previous studies have suggested a correlation between mitogenic, polyclonal activation of host lymphocytes and the respiratory tract inflammatory diseases induced by Mycoplasma pulmonis. This study describes the generation of monoclonal antibodies (MAbs) to M. pulmonis membrane antigens with different capacities to inhibit stimulation of cultured rat lymphocytes by mycoplasmal membranes and with variable effects on M. pulmonis growth. We show that the inhibitory effects exerted on mitogenesis by purified MAbs are inversely related to the effects of MAbs on M. pulmonis growth. Immunoblotting of electrophoretically separated membrane proteins, with both growth- and mitogenesis-inhibiting antibodies, revealed significant changes in the reactions obtained with both types of MAb following short exposure of membranes to heat. Growth-inhibiting MAbs strongly react with heat-labile antigenic complexes with molecular weights of 65,000 to 75,000. Inhibition of mitogenesis is mainly associated with recognition of membrane complexes of 84 to 113 kDa that exhibit disperse smears and variable heat sensitivities. Following brief heating of membranes, more distinct bands of 103, 90, and 84 kDa are obtained with MAbs that inhibit mitogenesis. Experiments with other mitogenic mycoplasma species and MAb 3.3.10.2, a potent inhibitor of mitogenesis reveal that whereas the antigenic epitope recognized by this antibody is present on unheated membranes from different mycoplasmas, with heated membranes the MAb yields reactions only with M. pulmonis and M. arthritidis. Our studies suggest that M. pulmonis mitogens are unique membrane complexes of variable molecular weights, highly susceptible to heat and less sensitive to reducing agents.