Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using colony assays in semi-solid media, several investigators have shown that supernatants (SN) of normal and malignant human B-cells can stimulate the growth of granulocyte-macrophage (GM) progenitor cells. So far macrophage colony-stimulating factor (M-CSF) and interleukin-6 (IL-6) have been identified as potential colony-stimulating activity (CSA) present in B-cell SN. However, other CSAs such as GM-CSF, G-CSF, IL-1-beta, IL-3, and IL-4 may also be candidates in this respect. Several human B-cell lines (CL) were screened for the expression of the respective genes at the mRNA and protein level. Constitutive production of GM-CSF was detected in the lymphoblastoid CL Wi-L2-729-HF2 and in the Burkitt line Raji. The signal intensity of specific transcripts and the amount of protein being secreted increased upon exposure to the phorbol ester PMA. The hybridoma line HB-564 also expressed the GM-CSF gene, but required prior stimulation with PMA. 3H-thymidine incorporation of Raji and Wi-L2-729-HF2 cells was unchanged in the presence or absence of a specific neutralizing sheep anti-GM-CSF serum, suggesting that GM-CSF did not serve as an extracellular autocrine growth factor. The expression of the GM-CSF gene was independent of the proliferative state (log phase growth versus plateau phase growth) and of the presence of serum in cultures of the respective CL. The expression of G-CSF, IL-1-beta, IL-3, and IL-4 genes was not detectable in the CL at the mRNA level.
Leukemia 1991 Aug
PMID:Screening for expression of cytokines with hematopoietic growth factor activity by permanent human B-cell lines. 188 24

In order to clarify the function of human S100 beta-positive T-cells, S100 beta-positive T-leukemia cells (S100 beta TLC) were examined in vitro. S100 beta TLC were obtained from the peripheral blood of a patient with S100 beta-positive T-cell leukemia and enriched by an E-rosetting method. Two dimensional flow cytometric analysis indicated that the vast majority of the E-positive fraction were S100 beta TLC expressing CD3 and CD8 antigens. Although S100 beta TLC expressed CD3 antigen, they were negative for the alpha/beta and gamma/delta T-cell antigen receptor (TCR) defined by monoclonal antibodies (mabs) WT-31 and delta TCS-1, respectively. It was speculated that S100 beta TLC initially expressed alpha/beta TCR but lost it during malignant transformation. When S100 beta TLC were cultured for 24 h, they acquired cytotoxic activity towards various NK-sensitive cell lines including K-562, Molt-3 and CEM-CCLF, but did not exhibit lysing activity towards NK-resistant cell lines including Raji, Daudi and MT-1. Despite the NK-activity of cultured S100 beta TLC, they lacked the morphological features of large granular lymphocytes (LGL). S100 beta TLC did not exhibit lymphokine-activated killer (LAK) activity. When S100 beta TLC were cocultivated with NK-sensitive cells or NK-resistant cells, they selectively bound to NK-sensitive cells, indicating that they lysed target cells by cell-to-cell contact. The finding that S100 beta TLC lacked TCR molecules and their NK activity was not inhibited by mabs reactive with the CD3-TCR complex indicated that the CD3-TCR complex was not involved in their target recognition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Natural killer (NK) activity of cultured S100 beta-positive T-leukemia cells. 198 Jul 62

Peripheral blood mononuclear cells (PBMC) from 42 patients with acute myelogenous leukaemia (AML) in complete remission (CR) and from normal donors were activated into LAK cells in the presence of 1000 U/ml of recombinant interleukin-2 (rIL-2). Cytotoxicity of LAK cells was assayed against K562, Daudi, and Raji cell lines, and autologous and/or allogeneic thawed leukaemic blasts. Fresh unactivated PBMC from normal donors and AML patients served as controls. Mean +/- standard deviation (SD) percentage lysis of the different targets by patient LAK cells were: K562 61 +/- 20%, Daudi 62 +/- 23%, Raji 48 +/- 24%, autologous blast cells 12 +/- 16% and allogeneic blast cells 13 +/- 10%. Lysis of the different targets by LAK cells from normal donors was similar to that achieved with LAK cells from AML patients. Overall there was a good correlation between the lysis of the different targets. There was no significant difference between the percentage lysis of autologous and allogeneic thawed blast cells, although LAK cells from seven out of the 18 patients tested were unable to lyse autologous leukaemic cells. Activity of patient LAK cells did not correlate with the initial characteristics of the patient nor with the time spent in CR before harvesting PBMC for activation. At the time of analysis, 32 patients were in continuing CR and 10 had relapsed. Multivariant analysis for prognostic factors showed that patients whose LAK cells had more lytic activity on K562 (P = 0.005) and fresh blast cell (P = 0.02) targets had significantly less risk of relapse than patients with little inducible LAK cell activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inducibility of lymphokine activated killer (LAK) cells in patients with acute myelogenous leukaemia in complete remission and its clinical relevance. 201 57

To explain the sequence-dependent in vitro cytotoxic synergism between 4-hydroperoxycyclophosphamide (4-HC) and cisplatin in the K-562 human leukemia cell line, we have hypothesized that 4-HC decreases cellular glutathione (GSH) levels and that the resulting diminution of the cellular protective effect of GSH leads to the increased cytotoxicity of cisplatin. Exposure of K-562 cells to 4-HC resulted in a concentration- and time-dependent depletion of cellular GSH. To determine the effect of modulation of GSH levels on the toxicity of cisplatin, K-562 cells were exposed to buthionine sulfoximine (BSO) and/or GSH ethyl esters. Depletion of GSH to approximately 10% of control values by BSO potentiated the cytotoxicity of cisplatin, while rapid replenishment of GSH to within normal levels by GSH esters abolished the potentiation of BSO. Doubling cellular GSH by incubation with GSH esters protected against cisplatin cytotoxicity. Of importance, pretreatment of K-562 cells with BSO, in addition to increasing the cytotoxicity of 4-HC and cisplatin, abolished the synergism between the two drugs. The working hypothesis was also tested in two other cell lines in which the cytotoxic synergism between 4-HC and cisplatin was exhibited: the Raji cell line, a human lymphoblastic cell line, and the L1210-CPA cell line, a subclone of the murine L1210 leukemia with resistance to 4-HC. GSH levels in these two cell lines were not altered by incubation with concentrations of 4-HC at which the synergism was observed. In conclusion, the data for the K-562 cell line, indicating that (a) 4-HC depletes cellular GSH levels, (b) the lowering of cellular GSH levels enhances the toxicity of cisplatin, and (c) intact GSH stores are required for the synergism, strongly support the postulate that the cytotoxic synergism between 4-HC and cisplatin is modulated by GSH levels in this cell line. However, the lack of 4-HC-mediated depletion of GSH at concentrations of 4-HC resulting in cytotoxic synergism in the Raji and L1210-CPA cell line indicates that mechanisms other than modulation of GSH levels by 4-HC are responsible for the synergism in these cells.
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PMID:Role of glutathione in the in vitro synergism between 4-hydroperoxy-cyclophosphamide and cisplatin in leukemia cell lines. 202 33

Transcobalamin II (TC II) is essential for cellular uptake of cobalamin. However, the origin of this transport protein is controversial and many organ sources have been suggested. We studied human umbilical vein endothelial cells cultured in vitro. The cells contained TC II (2.3 pmol/10(8) cells) and released progressively increasing amounts of the protein into the surrounding medium during the 3-day incubation period. This release exceeded the starting intracellular content of TC II. In contrast, endothelial cells did not contain or elaborate R binder, the other major circulating binding protein for cobalamin, Cycloheximide inhibited the elaboration of TC II, suggesting that the endothelial cells synthesize the protein. Thrombin, which stimulates tissue plasminogen activator release, did not enhance TC II release, and neither did endotoxin or mellitin. However, thrombin did appear to partially protect TC II release from inhibition by cycloheximide. Among other cells studied, human fibroblasts also released TC II into the incubation medium, while K562 human leukemia cells, ARH-77 and HS Sultan human plasma cell lines, and Raji strain lymphoblasts did not. The data suggest that endothelial cells are an important source of the metabolically crucial TC II.
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PMID:Human umbilical vein endothelial cells secrete transcobalamin II. 210 63

The nuclear protein p53 has been reported to be associated with cell transformation and/or proliferation so that the study of p53 expression in human malignancy has potentially important clinical implications. We have analyzed the p53 expression in mitogen-stimulated and nonstimulated human lymphocytes, in several human leukemia cell lines (Molt-4, Raji, Daudi, HL-60, KG-1, K562 and U937) and in fresh bone marrow (BM) cells. Simultaneous differential staining of p53 (identified by a FITC-labeled monoclonal antibody) versus DNA (stained with propidium iodide, PI), followed by bivariate analysis with flow cytometry (FCM) made it possible to evaluate p53 expression with respect to cell position during the cell cycle. The data show that in stimulated lymphocytes p53 is progressively accumulated during the G1, S and G2-phases, while in non-stimulated conditions most cells are remaining in G0/G1 and express p53 to a lesser degree. This suggests that expression of p53 is more correlated with cell growth than with entrance into (or progression through particular phases of) the cell cycle. Cells from acute lymphoblastic leukemia (ALL) and Burkitt's lymphoma cell lines express elevated levels of p53, while all examined human acute myeloid leukemia cell lines synthesize negligible p53 protein. Understanding the variations in p53 expression in different types of human leukemia may provide some insight into the biologic roles of p53 in normal and malignant cells.
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PMID:Expression of p53 protein during the cell cycle measured by flow cytometry in human leukemia. 214 May 91

In 1977 we showed that cells of a human lymphocytic leukaemia-derived T line (Molt-4) have receptors for Epstein-Barr virus (EBV). More recently, EBV-positive human T cell lymphomas have been recognized and human T cell lines containing the EBV genome have been established in vitro. To understand better the interaction of EBV with T cells, we decided to determine first whether human peripheral blood T lymphocytes express receptors for EBV. Using flow cytometry we examined the binding of both lymphocyte-transforming (B95-8) and non-transforming (P3HR-1) strains of EBV to T lymphocyte subpopulations, using a double labelling technique with T cell-specific phycoerythrinated monoclonal antibodies (Leu 2a) and fluoresceinated viral preparation. Our results suggest that, in general, about 50% of the CD8+ (or suppressor/cytotoxic) T cell subpopulation from both EBV-seropositive and -seronegative individuals can bind EBV. EBV receptor expression on these T cells was about 10 and 51 times less than that on Molt-4 and Raji (an EBV receptor-positive B cell line) cells, respectively. The specificity of this binding was demonstrated by the inhibition of attachment of viral preparations preincubated with a monoclonal antibody directed against the viral ligand (gp240/350), and by preincubating these target T cells with unlabelled virus. We were unable to detect EBV-induced antigens in infected T cells, suggesting that, as in Molt-4 cells, virus internalization may not occur in fresh T cells and/or that the virus receptor may not be completely functional. We were also unable to detect C3d (or CR2) receptors on these T cells, or to inhibit virus attachment by treating the targets with an anti-CR2 monoclonal antibody (OKB7), suggesting that the EBV receptor on CD8+ peripheral blood lymphocytes is different from that on B cells.
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PMID:Epstein-Barr virus receptor expression on human CD8+ (cytotoxic/suppressor) T lymphocytes. 215 91

Two childhood cases are reported of peripheral T-cell lymphoma; the neoplastic cells expressed activated CD8 (T8) phenotype and contained Epstein-Barr viral (EBV) DNA. Both patients had an aggressive and rapid clinical course despite chemotherapy. Elevated titers of antibodies to EBV-viral capsid antigen (greater than 640) and early antigen (greater than 10) were found in both patients. Histology revealed pleomorphic immunoblastic lymphoma with extensive necrosis in one case and an angioimmunoblastic lymphadenopathy-like pattern containing Reed-Sternberg-like giant cells in the other. Southern blot hybridization studies showed clonal rearrangement of the T-cell-receptor beta gene in both cases, and a cytogenetic study on one case revealed clonal structure abnormality involving chromosomes 1, 6, 7, 10, and 19. Analysis of the tumor DNA showed a high copy number of EBV genome per cell compared with that of Raji and Marmoset B 95.8 lines; the study for human T-cell leukemia virus type I was negative. The EBV genome was found by in situ hybridization in the tumor nuclei in both cases. In addition to Burkitt's lymphoma, T-cell lymphoma of the helper phenotype, and Hodgkin's disease, EBV can contribute to the development of CD8-positive aggressive T-cell lymphoma.
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PMID:Epstein-Barr virus-associated peripheral T-cell lymphoma of activated CD8 phenotype. 217 2

We are studying the usefulness of combinations of 4-HC and cisplatin as a potential purging regimen for autologous bone marrow transplantation. In all of our studies, in vitro cytotoxicity was determined by clonogenic assay, and drug interaction was quantitated using the multiple drug-effect analysis method. The cells were incubated for one hour (4-HC) and/or 4 hours (cisplatin). We found that the drugs in combination had cytotoxic synergism against human leukemia cell lines (K-562 and Raji). The synergism was sequence-dependent (cells must be exposed to 4-HC first), was present at various molar ratios of the drugs, and most pronounced at high levels of cell kill. We also found that the drugs had cytotoxic synergism against normal human marrow progenitors (CFU-GM). However, the leukemic cells were approximately 55 times more sensitive to the combination than CFU-GM. In a murine system, the drugs were synergistic against L1210 leukemia cells and normal murine CFU-GM, but L1210 cells were at least 130 times more sensitive to the combination than CFU-GM. To determine the ability of L1210 cells to grow in vivo after exposure to the drugs, BDF1 mice were injected with 2 x 10(4) cells which had been incubated with 4-HC and/or cisplatin. The survival time of untreated controls was 13 +/- 2.8 days. For treated groups, the cure rates after 50 days of observation were 33% (4-HC, 40 uM), 0% (cisplatin, 8 uM), and 100% (4-HC + cisplatin). Finally, at concentrations resulting in equivalent toxicity to marrow CFU-GM, cisplatin seemed to be more toxic to murine spleen blast colony forming cells (CFC-BC) than 4-HC. The drugs in combination appeared to have at least additive toxicities against CFC-BC.
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PMID:Combinations of 4-hydroperoxycyclophosphamide (4-HC) and cisplatin for bone marrow purging in autologous marrow transplantation: an update. 230 1

Aggregating agents including phorbol esters which activate protein kinase C induce the rapid phosphorylation of a Mr = 47,000 cytosolic protein in blood platelets (P47 or pleckstrin). This protein is well resolved by analytical 16-BAC----SDS two-dimensional PAGE and was purified from platelets by preparative 16-BAC----SDS PAGE. Polyclonal antibodies were raised to the protein in mice and rabbits. These antisera detected a single protein with the migration of P47 on Western blots of platelet extracts, and the rabbit antisera immunoprecipitated 32P-labelled P47 from platelet cytosol. The presence of P47 in other haematopoietic cells was determined by prelabelling them with 32P and observing increased 32P incorporation into the location of P47 on autoradiographs of 16-BAC----SDS analytical PAGE of cells exposed to phorbol ester. The identity of the phosphoprotein found in this location was further established by probing Western blots of SDS PAGE gels of cultured cell lines with the P47 antisera. P47 was detected in peripheral blood lymphocytes, monocytes and granulocytes (including the granulocytes of two unrelated patients with X-linked chronic granulomatous disease). P47 was also found in HL-60 promyelocytes (especially after differentiation with retinoic acid), U937 histiocytes, HEL leukaemia cells, and Raji 'B' lymphoblasts. It was not detected in normal erythrocytes, K562 leukaemic cells, MOLT-3 'T' lymphoblasts, or in wide range of non-haematopoietic cell lines. We conclude that P47 is a major target for the action of phorbol ester induced phosphorylation in platelets, normal leucocytes and some haematopoietic cell lines. These cells have as their common feature the ability when stimulated to develop adhesive functions on their plasma membranes.
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PMID:P47 phosphoprotein of blood platelets (pleckstrin) is a major target for phorbol ester-induced protein phosphorylation in intact platelets, granulocytes, lymphocytes, monocytes and cultured leukaemic cells: absence of P47 in non-haematopoietic cells. 231 54


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