S-phase fraction is not correlated with nucleoside transport in acute myeloid leukemia cells.

The expression of nucleoside carrier [nitrobenzylmercaptopurine riboside (NBMPR) binding] sites has been related to proliferative fraction in cell lines and in patient myeloid and lymphoid blasts. This correlation was examined in patients with untreated acute myeloid leukemia (AML). Bone marrow blasts were incubated with 8 microM bromodeoxyuridine (BrdUrd) and dual-labeled with propidium iodide and anti-BrdUrd monoclonal antibody. Flow cytometry was used to determine the percentage of cells with detectable BrdUrd incorporation into DNA (%S) and the proliferative fraction (PF = %S+%G2M) in 63 patients; NBMPR binding sites were quantitated in samples from 29 patients. The median %S was 6.1% (range 0.6-25.9%) and the median PF was 13.0% (range 2.4-36.1%), with a median of 7243 NBMPR binding sites per cell (range 1716-27247). In contrast to a previous report which included bone marrow and peripheral blood blasts, %S in marrow blasts did not correlate with NBMPR binding sites per cell (r = 0.005, p = 0.979). Similarly, PF did not correlate with NBMPR sites per cell (r = 0.190, p = 0.325). This lack of correlation between leukemia cell proliferation and NBMPR binding sites per cell suggests that DNA synthesis in AML blasts depends primarily on de novo nucleoside synthesis rather than the usage of salvage pathways.

Coexpression of different antigenic markers on moieties that bear CA 125 determinants.

CA 125 has been extensively evaluated as a serum marker for monitoring patients with epithelial ovarian carcinoma. Recently, consideration has been given to the use of CA 125 as one component in a strategy for early detection of this disease. A number of benign conditions can, however, increase CA 125 in serum, limiting the utility of a single antigen determination for identifying ovarian cancer patients. Coexpression of different epitopes on the high molecular weight complexes that express CA 125 determinants might provide a more specific test for malignant disease, provided that adequate sensitivity were maintained. To determine how frequently determinants are coexpressed, macromolecular moieties containing CA 125 determinants have been isolated from ascites fluid of ovarian cancer patients by immunoaffinity chromatography. CA 125+ moieties have been probed on Western transfers with several murine monoclonal antibodies that recognize distinct tumor-associated epitopes. Marked heterogeneity was observed between patients with regard to antigenic determinants that could be coexpressed with CA 125. A fraction of ascites fluids from different ovarian cancer patients contained moieties which bound to OC 125 on a solid phase immmunoadsorbent and which also bound 125I-labeled monoclonal antibodies NS 19-9, B72.3, DF3, or the novel murine monoclonal antibody OC 3632 in a double determinant immunoradiometric assay. Serum samples were evaluated from patients with ovarian cancer and from apparently healthy individuals. Coexpression of TAG 72 and CA 125 was observed most frequently. When the double determinant assay for coexpression of TAG 72 and CA 125 was compared to assays for the individual antigens, the assay for coexpression was substantially less sensitive than those for the individual markers.

Elimination of malignant clonogenic T cells from human bone marrow using chemoimmunoseparation with 2'-deoxycoformycin, deoxyadenosine and an immunotoxin.

Autologous bone marrow transplantation may contribute to the treatment of several types of lymphoreticular malignancies. Recent studies have suggested that a combination of chemoseparation and immunoseparation may be more effective than either modality alone in eliminating malignant cells from human bone marrow. In this report an immunotoxin has been prepared by conjugating pokeweed antiviral protein (PAP) to the 3A1 murine monoclonal antibody that recognizes a 40 kD (CD7) determinant expressed by most T cell acute lymphoblastic leukemias and a majority of normal mature peripheral T cells. When HSB-2 T lymphoma cells were mixed with normal human bone marrow and incubated with 3A1-PAP and 100 microM chloroquine, approximately 3 logs of clonogenic T cells could be eliminated from a 20-fold excess of bone marrow. Treatment of cell mixtures with 2'deoxycoformycin (2'-dCF) and deoxyadenosine (dAdo) eliminated 2 logs of clonogenic tumor cells. The use of 3A1-PAP and chloroquine with dCF/dAdo was more effective than either single modality, eliminating up to 6 logs of HSB-2 tumor cells in optimal experiments. Anti-tumor activity of the combined treatment extended to T leukemia cells taken directly from patients. Although 3A1-PAP reduced CFU-GM by only 13% and BFU-E by 36%, the addition of 2'-dCF and dAdo was more toxic for normal marrow precursors, further reducing CFU-GM, GEMM and BFU-E as well as preventing recovery of CFU-GM in long-term bone marrow culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Combined chemoseparation and immunoseparation of clonogenic T lymphoma cells from human bone marrow using 2'-deoxycoformycin, deoxyadenosine, 3A1 monoclonal antibody, and complement.

Chemoseparation and immunoseparation techniques have been combined to eliminate malignant clonogenic T lymphoma cells from human bone marrow. Incubation with 5 microM 2'-deoxycoformycin and 500 microM deoxyadenosine has eliminated 2 logs of HSB-2 T lymphoma cells from a 20-fold excess of irradiated human bone marrow. Multiple incubations with 3A1 antibody and rabbit complement eliminated approximately 2 logs of HSB-2 cells from similar mixtures. Used in combination, the 2 techniques eliminated up to 4 logs of T lymphoma cells. Incubation of normal human bone marrow under similar conditions failed to affect growth of granulocyte-macrophage colony-forming cell units, burst-forming erythroid units, or multipotential erythroid-granulocyte-megakaryocyte-macrophage colony-forming hematopoietic progenitor cells units.