Flow Cytometric Diagnosis of the Cell Lineage and Developmental Stage of Acute Lymphoblastic Leukemia by Novel Monoclonal Antibodies Specific to Human Pre–B-Cell Receptor

Abstract

Abstract Three novel monoclonal antibodies (MoAbs) have been established that recognize distinct epitopes of a human pre–B-cell receptor (pre-BCR) composed of a μ heavy (μH) chain and a λ5/VpreB surrogate light (SL) chain. HSL11 reacts with λ5 whereas HSL96 reacts with VpreB. Intriguingly, HSL2 does not bind to each component of the pre-BCR but does bind to the completely assembled pre-BCR complex. Flow cytometric analyses with cytoplasmic staining of a panel of human cell lines showed that HSL11 and HSL96 specifically stained cell lines derived from the pro–B and pre–B-cell stages of B-cell development. In contrast, HSL2 stained exclusively cell lines derived from the pre–B-cell stage. These results prompted us to explore the possibility of clinical application of these MoAbs for the determination of the cell lineage and developmental stage of acute lymphoblastic leukemia (ALL). Whereas none of mature B-lineage ALLs (B-ALLs), T-lineage ALLs (T-ALLs), and acute myeloid leukemias analyzed were stained in the cytoplasm with these three MoAbs, the vast majority of non–B- and non–T-ALLs (53 out of 56 cases) were found positive for either λ5, Vpre-B, or both in their cytoplasm. Among these 53 cytoplasmic SL chain-positive ALLs, 19 cases were also positive for cytoplasmic μH chain, indicative of pre–B-cell origin. Interestingly, 6 out of these 19 pre–B-ALL cases were found negative for cytoplasmic staining with HSL2. From these results, we propose a novel classification of B-ALL in which five subtypes are defined on the basis of the differential expression of SL chain, μH chain, pre-BCR, and light chain along the B-cell development.