Allostimulated Lymphocytes Inhibit Replication of HIV Type 1

Abstract

Previous reports demonstrated that alloantigen- or xenoantigen-specific antibodies displayed neutralizing activity toward human or simian immunodeficiency viruses. In the present article we have addressed the question of alloantigen-induced cell-mediated anti-HIV activity. We show that allostimulation resulted in a lymphocyte population (largely of the CD8-positive phenotype) with the capacity to inhibit HIV-1 replication in PHA blasts of homologous and, unexpectedly, also autologous origin. The allostimulated effector cells exerted their activity via a noncytolytic mechanism. Experiments in which direct cell-to-cell contact between allostimulated effectors and HIV-1-infected PHA blasts was prevented by a semipermeable membrane indicated that soluble mediators were involved in inhibition of HIV-1 replication. As such allostimulated effectors not only would have the capacity to prevent viral replication in allogeneic HIV-1-infected cells (known to play an important role in HIV-1 transmission in vivo), but also might inhibit HIV-1 growth in autologous lymphocytes, the concept of an AIDS vaccine containing both HIV-1 antigens and alloantigens warrants further consideration.