Abstract

Type O Rh positive human red blood cells (HRBC), native or treated with one of three enzymes (papain, trypsin, or neuraminidase), were labeled with 51Cr and then sensitized with anti-Rh immune globulin. These cells served as targets in antibody-dependent cellular cytotoxicity (ADCC) for unfractionated human mononuclear cells (MC), MC depleted of monocytes by adhesion to plastic, and MC enriched for monocytes. Enzyme-treated HRBC were lysed with greater efficiency in ADCC than native HRBC. This was explained by the finding that the enzyme modified HRBC were lysed both by lymphocytes and monocytes, whereas native HRBC were lysed only by monocytes. The lysis of native HRBC was strongly inhibited by small amounts of human serum or free IgG. In contrast, the lysis of enzyme-treated HRBC was considerably more resistant to inhibition by human serum or free IgG. The enhanced lysis of enzyme-treated HRBC could not be the result of increased binding of antibody to the target cells, since augmented lysis was observed both for HRBC sensitized before neuraminidase treatment as well as for HRBC sensitized after neuraminidase treatment. These results suggest that the surface charge on target cells plays a critical role in determining which classes of leukocytic effector cells are active in ADCC systems.

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