The highly polymorphic major histocompatibility class I related chain A (MICA) gene encodes glycoproteins that have been shown to be expressed in epithelial cells, endothelial cells, keratinocytes, monocytes, and tumor cells. In previous experiments, we have studied MICA antigens using rabbit sera obtained by immunization with MICA peptides. We also found that several transplant recipients had specific antibodies against MICA in an ELISA assay with recombinant of MICA (r-MICA). In the present work we produced monoclonal antibodies by immunization of mice with recombinant MICA*008. Based on the different patterns of reactivity observed in ELISA, Western blot, and flow cytometry, mAbs 1.9C2, 2.4F5, 1.7AD, and 2.3D4 only reacted with denatured MICA and mAb 1.7A8 and 3.2H3 reacted also with native MICA as illustrated by flow cytometry with live cells. These monoclonal antibodies were postulated to bind to different sites of the MICA molecule. In order to investigate whether MICA expressed on the cell surface is able to mediate cell killing, antibody absorption, flow cytometry and complement-dependent cytotoxicity (CDC) were performed. We found that mouse monoclonal antibody 3.2H3 was able to kill 70% of HeLa cells. Absorption of a patient serum with pooled human platelets to remove antibodies against class I HLA resulted in a small shift of fluorescence and reduced killing from 100% to 70-75%. Absorption with the platelets and r-MICA produced a remarkable reduction in fluorescence staining and virtually reduced complement-dependent killing to the level of the negative controls. The results suggested that MICA alloantigens may be more immunogenic than could have been previously suspected.