Blockade of NK cell lysis is a property of monoclonal antibodies that bind to distinct regions of T-200.

Abstract

The previously described NK inhibitory monoclonal antibody 13.1 is shown to immunoprecipitate a series of high m.w. glycoproteins homologous with the murine T-200/Ly-5 molecules. Not all antibodies to the human T-200 molecule, however, have an inhibitory effect on NK cell function. A comparison is made between two noninhibitory anti-T-200 antibodies, 13.5 and 13.6, and two inhibitory anti-T-200 antibodies, 13.1 and 13.3. All antibodies are of the IgG1 subclass. Sequential immunoprecipitation experiments show that these antibodies react with the same set of molecules. The differences in NK-blocking activity could not be explained by the amount of antibody bound per cell in NK-enriched populations, nor by the avidity with which they bound. It is shown by competitive radiobinding assays that the 13.1 and 13.3 antibodies define a region, termed region A, distinct from that defined by the nonblocking antibodies 13.5 and 13.6, termed region B. Region B is shown to reside between the membrane and region A. These findings show that the inhibition of NK lysis by anti-T-200 antibodies is a function of the site on that molecule to which these antibodies bind. This may also explain the ability of antibodies to the A region of T-200 to block selectively the lysis of myeloid and erythroid tumor targets, with no effect on the lysis of T lymphoma targets.