Cell-surface antigens of melanoma recognized by human monoclonal antibodies.

Abstract

Human monoclonal antibodies (mAbs) were derived from lymph node lymphocytes and peripheral blood lymphocytes (PBL) from patients with melanoma. Four methods for generating human mAbs were compared: fusion with human [LICR-LON-HMy-2 (LICR-2)] or mouse (NS-1) cells; transformation by Epstein-Barr virus (EBV); and EBV transformation followed by NS-1 fusion. NS-1 fusion with lymph node lymphocytes resulted in a higher number of growing hybrids than LICR-2 fusion. Virtually no hybrids were obtained from NS-1 or LICR-2 fusions with PBL. EBV transformed lymphocytes from lymph node and peripheral blood with equal efficiency, and the yield of proliferating cultures for antibody screening was more than 10- to 30-fold greater than that obtained by fusion techniques. However, once antibody-producing cultures had been identified, stability and clonability of EBV-transformed cells were poorer than that of NS-1 hybrid cells. To combine the strengths of both methods, cultures of EBV-transformed cells were fused with NS-1, and hybrid clones were isolated that showed vigorous growth, clonability, and stable antibody secretion. Detailed specificity analysis of the mAbs produced by six of these clones indicated detection of a class 1 (unique) melanoma antigen, a class 3 melanoma antigen, and four ganglioside antigens (GD3, GM3, and two other, as yet uncharacterized, heterophile antigens).