Neisserial porins may provide critical second signals to polysaccharide-activated murine B cells for induction of immunoglobulin secretion.

Resting B cells stimulated with dextran-conjugated anti-immunoglobulin D (anti-IgD) antibodies (anti-Ig-dex), a model for B-cell activation in response to polysaccharide antigens, proliferate but secrete little if any Ig, unless additional stimuli are present. In order to elucidate the parameters which costimulate T-cell-independent antipolysaccharide antibody responses during bacterial infections, we tested the capacities of highly purified porin proteins from Neisseria meningitidis and Neisseria gonorrhoeae to augment in vitro proliferation and induce Ig secretion by anti-Ig-dex-activated B cells. Resting B cells, from lipopolysaccharide (LPS)-nonresponsive C3H/HeJ mice, proliferated and secreted IgM in response to each of three distinct porins acting alone. Further, porins, even at concentrations that were minimally inductive when acting alone, were strongly synergistic with anti-Ig-dex for proliferation and Ig secretion. Similar synergistic effects of porins with CD40-ligand were also observed. These effects of porins were shown to occur directly at the level of the B cell. The predominant Ig isotype elicited in response to porins plus anti-Ig-dex or CD40-ligand was IgM (>97%), with the remainder comprising IgG. Surprisingly, picogram-per-milliliter amounts of neisserial LPS were also found to be highly synergistic with anti-Ig-dex for induction of IgM secretion by LPS-responsive C3H/HeN, but not C3H/HeJ, B cells. Thus, these data suggest that porins, as well as LPS, may provide critical second signals for T-cell-independent induction of polysaccharide-specific Ig in response to neisserial and other gram-negative porin-expressing bacterial pathogens, without a requirement for the participation of non-B cell types. These data may also help to explain the potent immunopotentiating effects of porins for polysaccharide-specific, as well as protein-specific, humoral responses in vivo.