Abstract

Treatment with intravenous Ig (IVIG) is efficacious not only in humoral immunodeficiency diseases but in several nonimmunodeficiency disorders as well. Since microbial superantigens (SAg) have been postulated to play a role in promotingin vivopathogenic autoantibody production and since IVIG preparations are rich in anti-SAg antibodies, we tested whether IVIG could inhibitin vitroSAg-driven human T cell-dependent B cell differentiation. We demonstrate that IVIG inhibits such B cell differentiation by at least three different mechanisms. Early addition of IVIG inhibits B cell differentiation not only in SAg-stimulated PBMC cultures but in anti-CD3- and pokeweed mitogen (PWM)-stimulated cultures as well, pointing to a SAg-nonspecific inhibitory effect. However, anti-SAg antibodies contained in IVIG can also effect SAg-specific inhibition, since polyclonal rabbit anti-SAg antisera added early to peripheral blood mononuclear cell (PBMC) cultures inhibit neither anti-CD3- nor PWM-driven B cell differentiation and inhibit B cell differentiation triggered only by the specific SAg against which the individual antiserum was raised. Finally, late addition of IVIG at a time at which B cells have already committed to terminal differentiation inhibits SAg-driven, but not anti-CD3- or PWM-driven, generation of Ig-secreting cells (IgSC). This late inhibition is associated with enhanced SAg-dependent cytolytic activity against Raji cell targets which is dramatic in PBMC cultures but is often not detectable in T + B cell cultures. Reconstitution of T + B cell cultures with natural killer cells restores the enhancing capacity of IVIG on SAg-dependent cytolytic activity as well as the late inhibitory effects of IVIG on IgSC generation. Understanding the multiple mechanisms through which IVIG can inhibit SAg-driven B cell differentiation may offer a rational basis for determining which patients are likely to favorably respond to IVIG administration.

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