calf serum; FITC, fluorescein isothiocyanate; HAT, hypoxanthine, aminopterin, thyrnidine selective medium; 1L-2-R, interleukin 2 receptor; mAb, monoclonal antibody; MLC, mixed lymphocyte culture; MNC, mononuclear cell; NK, natural killer; PHA, phytohemagglutinin; SDS-PAGE, sodium dodecyl sulfate-polyacrylamide gel electrophoresis; TLiSA, T lineage-specific activation antigen. J. ExP. MEt).
Monoclonal antibodies defining B-, T-, and myeloid-restricted cell surface antigens were used to characterize the lineage and state of differentiation of tumor cells isolated from 22 patients with hairy cell leukemia (HCL). These tumors were shown to be of B lineage because they strongly expressed the B cell-restricted antigens B1 and B4 and lacked T cell- and monocyte-restricted antigens. Moreover, the strong expression of the plasma cell-associated PCA-1 antigen on the majority of hairy cells suggested that these tumors correspond to later stages of B cell ontogeny. Dual fluorescence experiments further confirmed that HCL splenocytes that coexpressed B1 and PCA-1 demonstrated both the morphology and tartrate-resistant acid phosphatase positivity of hairy cells. The observation that some hairy cells either spontaneously produce immunoglobulin (Ig) or could be induced to proliferate and secrete Ig provides complementary support for the view that HCL is a pre-plasma cell tumor. However, staining of hairy cells with anti-IL2R1 monoclonal antibody, which is directed to the T cell growth factor receptor and/or with the anti-Mo1 reagent, directed to C3bi complement receptor, distinguish these cells from currently identified B cells.
In an attempt to compare B cell chronic lymphocytic leukemia (B-CLL) with its normal cellular counterpart, the cell surface phenotype of 100 cases of B-CLL was determined by using a panel of monoclonal antibodies (MoAbs) directed against B cell-restricted and -associated antigens. The majority of B-CLL cells expressed Ia, B4 (CD19), B1 (CD20), B2 (CD21), surface immunoglobulin (sIg), and T1 (CD5) but lacked C3b (CD35) receptors. In contrast, the overwhelming majority of small unstimulated B cells expressed Ia, B4, B1, B2, sIg, and C3b receptors but lacked detectable T1. Small numbers of weakly sIg+ cells could be identified in peripheral blood and tonsil that coexpressed the B1 and T1 antigens. Approximately 16% of fetal splenocytes coexpressed B1, T1, weak sIg, B2, and Ia but lacked C3b receptors and therefore closely resembled most B-CLL cells. With the phenotypic differences between the majority of small unstimulated B cells and B-CLL cells, we examined normal in vitro activated B cells and B-CLL cells for the expression of B cell-restricted and -associated activation antigens. Of 20 cases examined, virtually all expressed B5, and approximately 50% of the cases expressed interleukin-2 receptors (IL-2R) and Blast-1. Normal B cells were activated with either anti-Ig or 12–0-tetradecanoylphorbol- beta-acetate (TPA) and then were examined for coexpression of B1, T1, and the B cell activation antigens B5 and IL-2R. Only cells activated with TPA coexpressed B1 and T1 as well as B5 and IL-2R. B cells activated with either anti-Ig or TPA proliferated in the presence of IL- 2, whereas B-CLL cells did not, although they all expressed the identical 60-kilodalton proteins by immunoprecipitation. These studies are consistent with the notion that B-CLL resembles several minor subpopulations of normal B cells including a population of B cells that are activated in vitro directly through the protein kinase C pathway.
The intercellular adhesion molecule (ICAM-1) is a cell-surface molecule which binds to leukocyte function antigen-1 (LFA-1) and regulates both leukocyte adhesion to endothelial cells and immune functions requiring cell-cell contact. Membrane expression of ICAM-1 is highly regulated on all hematopoietic lineages. Cell membrane antigen is significantly expressed on a small subset of bone marrow (BM) progenitors but is weak or absent on all cell lineages once they enter the circulation. However, strong expression on tissue macrophages and germinal center B cells suggested that activated cells may show upregulated expression. When B cells, T cells, macrophages, or granulocytes were activated in vitro by suitable mitogens, ICAM-1 expression was induced in all cases. Parallel studies of hematopoietic tumors demonstrated a heterogeneity of expression which correlated with expression on their normal cellular counterparts. In particular, a striking correlation between expression on B-cell tumors and corresponding stages of B-cell differentiation was noted. The widely varying expression of ICAM-1 contrasts with LFA-1 which, while variable, is nevertheless significantly positive at all stages of differentiation. This suggests that the major regulation of homotypic adhesion mediated by the LFA-1/ICAM-1 linkage occurs through control of ICAM-1 expression. In keeping with this notion, ICAM-1 expression was also correlated with the “adhesiveness” of B-lymphoid tumors. Large solitary lymphoma masses showed intense expression of ICAM-1. Conversely, chronic lymphocytic leukemia (CLL) cells and lymphoma cells from tumors exhibiting diffuse, widespread lymph node disease showed weak expression. These observations are discussed in relation to the role of ICAM-1 in regulation of lymphoid recirculation and the biology of lymphoid tumors.
Integrins are a family of cell-surface receptors intimately involved in the interactions of cells with their extracellular matrix. These receptors comprise an a and , subunit in noncovalent association and many have been shown to recognize and bind an arginine-glycine-aspartate (RGD) sequence contained within their specific extracellular matrix ligand. Fibroblasts express integrin receptors belonging to two major subfamilies. Some of the members within the subfamily defined by,61 (VLA) are receptors for collagen but, perhaps surprisingly, the other major subfamily of integrins on fibroblasts-that defined by the a chain of the vitronectin receptor, av-all appear to bind primarily vitronectin and/or fibronectin. In the present study we show that RGD-containing peptides expose cryptic binding sites on the av-associated integrins enabling them to function as collagen receptors. The addition of RGD-containing peptides to fibroblasts cultured on type I collagen induced dramatic cell elongation and, when the cells were contained within collagen matrices, the peptides induced marked contraction of the gels. These processes were inhibited by Fab fragments of a monoclonal antibody against an av integrin. Also, av-associated integrins from cell lysates bound to collagen I affinity columns in the presence, but not in the absence, of RGD-containing peptides. These data suggest a novel regulatory control for integrin function. In addition, because the cryptic collagen receptors were shown to be implicated in the contraction of collagen gels, the generation of such binding forces suggests that this may be the major biological role for these integrins in processes such as wound healing.
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