The Mononuclear Cell in Human Blood Which Mediates Antibody-Dependent Cellular Cytotoxicity to Virusinfected Target Cells

Abstract

Mononuclear cells (MC) from human blood were fractionated by a variety of physical and immunologic techniques, and the cellular subpopulations generated were assessed for their capacity to lyse herpes simplex virus (HSV)-infected target cells in the presence of IgG antibody to HSV. Latex phagocytosis and surface marker studies were performed in parallel in order to identify the major effector cells by their phagocytic properties and their possession of surface immunoglobulin and receptors for either sheep erythrocytes, C3, or the Fc fragment of IgG. Cytotoxic effector cell activity was unaffected or slightly enhanced after the removal of plastic-adherent or carbonyl iron-adherent MC, indicating that the major effector cell is not a classical monocyte. Similar results were obtained after removal of more than 90% of the T cells by depletion of rosette-forming cells. Likewise, effector cell activity was generally unchanged when more than 95% of the B cells were removed by filtering MC on nylon wool columns. Effector cell function was also found to be normal in three patients with B cell-deficient X-linked agammaglobulinemia. These observations strongly suggest that the effector cells are not T cells or B cells. A 4- to 5-fold enrichment in effector cells, however, was consistently found in a subpopulation, consisting of 5% of the unfractionated MC, that was dramatically enriched both for nonphagocytic cells with only Fc receptors (K cells) and for nonphagocytic cells with no detectable surface markers (null cells). Since, as is demonstrated in the accompanying report, effector surface Fc receptors play a critical role in the mediation of antibody-dependent cellular cytotoxicity directed at HSV-infected target cells, the major mononuclear effector cell in human blood is a K cell.