B‐cell surface phenotypes of proliferating myeloma cells: Target antigens for immunotherapy

Abstract

Dual-parameter flow cytometric analysis of B-cell antigens and DNA content was used to determine the phenotypes of proliferating tumor cells (S-phase cells) from 30 patients with multiple myeloma. B4 (CD19), J5 (CALLA, CD10), B1 (CD20), and monotypic surface immunoglobulin (Sig) were expressed heterogeneously in 24 patients. J5 and monotypic Slg were found most frequently but were always expressed on a significantly lower percentage of cells than the antigens typically associated with plasma cells, cytoplasmic immunoglobulin (Clg) and T10 (CD38). S-phase cells were found in each antigen(+) subset. B antigen(+) cycling cells were demonstrated in 16 patients whose marrow or blood cells expressed B antigens exclusively in the hyperdiploid fraction and therefore were certainly part of the myeloma clone. Similar to the low level of proliferative activity of the T10(+), Clg(+), and PCA1(+) subsets, the percentages of cycling cells of the preplasma cell B-antigen-bearing myeloma subsets ranged from < 1% to 12%. The tumor cells of four patients were also studied with dual-color surface antigen analysis and demonstrated independent expression of B antigens, with only rare coexpression of T10 and monotypic Slg, J5, or B4. These findings are consistent with the presence of distinct myeloma subsets bearing differing B phenotypes in the same tumor and provide evidence that the proliferation in myeloma is occurring at various developmental stages in the malignant B lineage. These antigens may be important targets for immunologic therapy aimed at eliminating the entire proliferating compartment of this B-cell tumor.