Antibody Response of Murine B1 Cells to Hen Eggwhite Lysozyme

Abstract

Cell transfer studies were performed to investigate the ability of murine peritoneal B1 cells to produce specific IgG antibody against the T-dependent protein antigen, hen eggwhite lysozyme (HEL). Peritoneal cells (PeC) from normal BALB/c mice were transferred into newborn, allotype-congenic, C.B-17 severe combined immunodeficient (SCID) mice alone or together with splenic T cells from HEL-primed C.B-17 mice. After immunization with HEL, only those mice that received both PeC and primed T cells produced HEL-specific IgG of the PeC donor allotype. To identify the B cell subset responsible for antibody production, PeC were sorted before transfer into B1 and conventional B (B2) cell populations. It was found that transfer for purified B1 cells plus primed T cells resulted in high levels of IgG1 anti-HEL, in approximately half of the SCID recipients, while mice receiving B2 cells produced little detectable antibody. The responses consisted primarily of IgG1κ anti-HEL, with no significant IgM or λ-bearing components. Seventeen HEL-specific hybridomas of BALB/c origin, i.e., derived from the B1 cell donor, were obtained from reconstituted SCID mice after various periods of immunization and analyzed for fine specificity using a panel of avian lysozymes. All but one of the B1 cell-derived mAbs recognized an HEL epitope not present on the closely related bobwhite quail lysozyme (differing from HEL at only 4 of 129 amino acid positions). While IEF analyses demonstrated the presence of extensive clonotypic diversity, the epitope specificity pattern, which is rare among B2-cell-derived antibodies, suggests that the B1 cell recognition repertoire for HEL is severely limited.