ALTERATIONS IN MAJOR HISTOCOMPATIBILITY COMPLEX ASSOCIATION OF MYOCARDITIS INDUCED BY COXSACKIEVIRUS B3 MUTANTS SELECTED WITH MONOCLONAL-ANTIBODIES TO GROUP-A STREPTOCOCCI

Three monoclonal antibodies (mAbs), 49.8.9, 36.2.2, and 54.2.8, made t o the group A streptococcus M5 serotype identify crossreactive epitope s in cardiac tissues and also neutralize a highly myocarditic variant of coxsackievirus B3 (H3). Mutants of H3 were selected with these mAbs and evaluated for pathogenicity compared with the wild-type virus. H3 and the mutant variants selected with mAbs 36.2.2 (H3-36) and 54.2.8 (H3-54) induced severe myocarditis in DBA/2 (H-2(d)) and A/J (H-2(a)) male mice, whereas CBA (H-2(k)) mice were disease resistant. The virus variant isolated with mAb 49.8.9 (H3-49) was strikingly different and caused disease in CBA and A/J mice but not in DBA/2 animals, suggesti ng that the major histocompatibility complex association of the diseas e had been altered. This hypothesis was confirmed by using B10 congeni c mice. In addition, T lymphocytes from the H3 and H3-49 virus-infecte d mice responded to distinctly different peptides in the streptococcal M protein, suggesting that certain epitopes of infectious agents whic h are shared with host tissues may be critical in determining disease susceptibility in genetically distinct individuals.