A monoclonal antibody with reactivity restricted to normal and neoplastic plasma cells.

Abstract A monoclonal antibody that defines a new and distinct plasma cell antigen, termed PC-1, was developed against human plasmacytoma cells. This antigen is strongly expressed on normal plasma cells isolated from bone marrow and on abnormal plasma cells isolated from myelomas, plasma cell leukemias, and plasmacytomas. The antigen is not detected on normal T or B lymphocytes, granulocytes, or monocytes, and with the exception of plasma cells, is absent on malignancies of B, T, or myeloid origin. Utilizing pokeweed mitogen to induce human B lymphocyte differentiation in vitro, PC-1 is expressed when B cell determinants are lost and the plasmacytoid morphology, intracytoplasmic immunoglobulin-staining, and surface PCA-1- and T10-staining characteristic of plasma cells appear. This antigen is useful for the study of the terminal stages of normal B cell differentiation to plasma cells, and may offer insight into the heterogeneity of the plasma cell dyscrasias.</jats:p

Studies of in vitro activation and differentiation of human B lymphocytes. I. Phenotypic and functional characterization of the B cell population responding to anti-Ig antibody.

Abstract Investigation of the activation of splenic B cells by anti-immunoglobulin (Ig) antibody has enabled us to characterize the anti-Ig-responsive B cell and to analyze the phenotypic changes which accompany proliferation and differentiation. The anti-Ig antibody-responsive B cell population was characterized by the expression of high levels of the B2 antigen and represented approximately 40% of splenic B cells. Brisk mitogenesis which peaked at 3 to 4 days was induced by anti-Ig antibody. The proliferative phase was characterized phenotypically by a dramatic decline in B2 antigen expression, with most cells showing no detectable B2 by 4 days post-activation. The other hallmark of this phase was de novo expression of a group of "activation antigens." These included the B cell-restricted antigens B-LAST 1, BB1, and B5, and the T cell-associated interleukin 2 receptor and T12 antigens. Concomitantly, B1, B4, and Ia expression increased, the increase being roughly proportional to the increase in cell size. After day 4, the mitogenic response progressively diminished, while Ig synthesis increased. During this differentiation phase, cell surface antigens again displayed a distinct sequence of changes. The five activation antigens and the B1, B4, and Ia antigens began to decrease. However, two markers, T10 and PCA-1, which are found on plasmacytomas, appeared and their level of expression steadily increased. These changes and the appearance of morphologically identifiable plasma cells required the presence of T cells in this system. T cell supernatants alone induced Ig secretion but did not induce expression of PCA-1 or the appearance of cells with plasma cell morphology. The culture system developed in this study has allowed us to analyze the antigenic changes following activation by anti-Ig antibody. This sequence of changes has not only permitted the identification of antigens which, by their appearance at distinct stages may have an important role in proliferation and differentiation of B cells, but also provides us with the means of studying the function of each antigen.</jats:p

Isolation and functional analysis of human B cell populations. I. Characterization of the B1+B2+ and B1+B2- subsets.

Abstract Distinct populations of human B lymphocytes can be identified by their expression and/or co-expression of the B cell-restricted antigens B1 and B2. Dual fluorochrome staining and flow cytometric cell sorting permitted the isolation of the B1+B2+ and B1+B2- cells to homogeneity. In contrast, very few B1-B2+ cells were obtainable from normal lymphoid organs. Virtually all B1+B2+ cells expressed IgM and IgD, but lacked IgG and the plasma cell antigens PCA-1 and PC-1, whereas the B1+B2- cells more frequently expressed IgG, PCA-1 and PC-1. Both populations were noncycling and were composed of similar percentages of small and large cells. The B1+B2+ cells proliferate to anti-mu or to anti-mu + PHA-LCM, but not to PHA-LCM alone. They require both T cells and PWM to produce Ig. In contrast, B1+B2-cells do not significantly proliferate to anti-mu, PHA-LCM, or anti-mu and PHA-LCM. They produce Ig in response to T cells alone without PWM. These phenotypic and functional observations provide preliminary evidence that these populations are distinct and that the B1+B2+ cell may be a "resting" B cell, whereas the B1+B2- cell appears to be more "differentiated." The present studies further suggest that they will also be helpful in characterizing B cells in some human disease states. We believe that the identification and isolation of these and similar subsets of B cells defined by differing cell surface phenotype should aid our understanding both of normal B cell differentiation and of B cell disease states.</jats:p