Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We have produced a monoclonal antibody (MoAb), AML-1-99, that defines a novel 124-kd protein antigen expressed on a subpopulation of monocytes and on the majority of hematopoietic progenitor cells of the granulocyte-monocyte (CFU-GM), erythroid, and mixed-lineage classes. AML-1-99 is lytic to bone marrow (BM)- and peripheral blood-derived progenitor cells in the presence of rabbit complement (C'). AML-1-99 is not toxic to progenitor cells in the absence of C', nor does it modify their growth when included in colony-forming cultures. Several leukemia cell lines, including HL-60, U937, KG-1a, and Daudi cells, express the antigen on the majority of cells. Freshly isolated leukemia cells from patients with acute myelogenous leukemia (AML) react variably with AML-1-99. Leukemia colony-forming cells from several AML patients express the antigen and could be eliminated by treatment with AML-1-99 and C'. Cell sorting and immune rosette techniques were successfully applied to normal BM and chronic myelocytic leukemia cell populations using AML-1-99 with the result that significant enrichment of CFU-GM could be accomplished. The pattern of reactivity of this MoAb and its apparent molecular weight suggests that AML-1-99 recognizes a newly defined myeloid-associated cell surface antigen.
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PMID:Distribution of the 124-kd antigen defined by monoclonal antibody AML-1-99 on normal and leukemic myeloid cells. 342 92

GB16, GB18, GB19 and GB22 are mouse monoclonal antibodies produced against full-term human placental microvilli. These antibodies reacted predominantly with the apical surface of the syncytiotrophoblast from first-trimester and full-term placentae, and also reacted with several cell lines derived from non-haematopoietic tissues by immunofluorescence. The radioiodinated BeWo (choriocarcinoma) cell surface proteins were immunoprecipitated with these four antibodies and analysed by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The results demonstrated that the immunoprecipitates migrated at 180 and 90 kilodaltons under non-reducing and reducing conditions, respectively. Using enzyme-linked immunosorbent assay, the antigens recognized by GB16, GB18, GB19, and GB22 were able to bind human transferrin. Immunoabsorption studies showed that these four antibodies bound to the same molecule as OKT9, an antibody to the transferrin receptor. Moreover, the reactivities of these antibodies with HL-60 (promyelocytic leukaemia) cells diminished following dimethyl sulphoxide-induced differentiation by flow cytometric analysis. These data indicate that these four antibodies recognize the transferrin receptor. By competition assay, GB18 bound to an epitope different from those recognized by GB16, GB19 and GB22. In addition, GB22 displayed significant growth inhibition against the activated lymphocytes and Daudi cells, but not against HL-60 or Jurkat cells. These data suggest that these four monoclonal anti-transferrin receptor antibodies will provide additional means to investigate the physiological roles played by the transferrin receptor.
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PMID:Monoclonal antibodies (GB16, GB18, GB19, GB22) raised against human placental microvilli recognize the transferrin receptor. 343 58

The relative susceptibility of 10 human leukaemias comprising acute phase leucocytes from 5 acute myeloid and 5 lymphoid neoplasms, and 2 immunoblastic lymphomas to killing by peripheral blood mononuclear cells (PBMC), before and after target cell treatment with phytohaemagglutinin (PHA), and by interleukin-2 (IL-2) activated peripheral blood lymphocytes (PBL) was investigated in short term 51Cr release assays using effector cells from 10 allogeneic donors. Optimal lectin-dependent cellular cytotoxicity (LDCC) was verified against K562 and L1210 cells and lymphokine-activated killing (LAK) against K562 and Daudi cells. Under these conditions, the majority of the leukaemias tested revealed only a finite sensitivity to any of the cytotoxic mechanisms, which was dependent on the donor origin of the effectors. The leukaemias were more consistently susceptible to LDCC than LAK and removal of adherent cells to enrich for the latter activity in effector populations, was ineffective. Lymphocytes from a patient in long term (greater than 5 yr) remission exhibited LAK against the autologous target E84, a natural killer (NK)-sensitive acute myelomonocytic leukaemia. These cells failed to cross-compete for lysis of K562 by LAK cells, suggesting the existence of different recognition structure(s) on the two targets.
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PMID:Lymphokine activated killing of fresh human leukaemias. 348 7

The purpose of this study was to determine the sensitivity to merocyanine 540 (MC 540)-mediated photolysis of normal human hematopoietic progenitor cells and four leukemia cell lines (Daudi, Raji, K562 and HL-60). Late erythroid progenitors were the most sensitive normal cells. Early erythroid progenitors were of intermediate sensitivity. Granulocyte/macrophage progenitors and multipotent progenitors were the least sensitive normal marrow cells. A combination of dye concentration, serum concentration, and illumination that eliminated 50% of multipotent progenitor cells reduced the concentration of leukemic cells by greater than or equal to 4.5 log. It is conceivable that this difference in photosensitivity can be exploited for the extracorporeal purging of autologous remission marrow grafts.
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PMID:Dye-mediated photolysis of normal and neoplastic hematopoietic cells. 380 20

It is a generally accepted principle of radiation biology that hematopoietic progenitor cells demonstrate dose rate independent killing by x-irradiation over the clinically relevant range for total body irradiation (TBI) (5-25 rad/min). To determine whether low dose rate (5 rad/min, or 20 rad/min) compared to conventional dose rate (200 rad/min) x-irradiation altered the clonagenic survival of leukemia and lymphoma cell lines, several permanent cell lines were studied. These included: bg/bg cl 1, mouse basophillic leukemia; LW12, [W/fu rat acute myelogenous leukemia (AML)]; and human cell lines: JY and Daudi (B-cell lymphomas); K45, (T-cell leukemia); K562, (erythroleukemia); HL60 and KG1 (monomyeloid leukemias), and U937 (human histiocytic/monocytic lymphoma). Dose rate independent killing was demonstrated at several plating densities with mouse and rat leukemia lines and all human leukemia lines tested except lines HL60 and U937. With HL60, increased plating density increased the D0 at each dose rate. This effect was not attributable to an increased plating efficiency. With line U937 there was a clear dose-rate effect with increase in D0 from 88 rad, n 4.6 at 200 rad/min, to D0 = 166, n 2.3 at 5 rad/min. The data demonstrate that some human hematopoietic tumor derived cell lines of myeloid/monocyte/macrophage lineage can exhibit atypical repair of irradiation damage in vitro. This repair may be enhanced by conditions relevant to clinical TBI including low irradiation dose-rate and cell to cell interactions by tumor cells in close proximity.
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PMID:Effect of X-irradiation dose rate on the clonagenic survival of human and experimental animal hematopoietic tumor cell lines: evidence for heterogeneity. 394 94

We have studied the potential use of immunotoxins (ITs) for therapeutic treatment of human tumors in an experimental model of human neoplasia. We tested intact ricin IT for its antitumor activity against established tumors. CEM, a human T-cell leukemia line expressing an Mr 67,000 cell surface antigen, and Daudi, a human B-cell lymphoma line which does not express the antigen, were found to be consistently tumorigenic in nude mice. ITs were synthesized using T101, a high-affinity monoclonal antibody reacting with the Mr 67,000 protein determinant and intact ricin. We have shown for the first time that established CEM solid tumors in nude mice will regress following intratumoral injection of T101-ricin IT, while Daudi tumors will not. Selective activity of T101-ricin is dependent on systemic i.v. administration of lactose and local intratumoral injection of the T101-ricin IT with lactose. Intact ricin ITs require the presence of lactose to block native ricin binding and render them antigen specific when linked to monoclonal antibody. Killing of target was cell specific since (a) nonspecific (irrelevant) ITs did not cause the regression of CEM tumors, and (b) injection of large amounts of free T101 antibody prior to T101-ricin IT blocked antitumor activity. Selectivity was not absolute, since regression occurred in one of six animals given irrelevant IT, and blocking was observed in two of four mice. Intratumoral IT treatment with 1 or 2 micrograms of T101-ricin IT plus lactose was not harmful to mice in contrast to intratumoral ricin treatment, which killed all treated tumor-bearing mice at a dose of 0.3 micrograms. Without i.v. injection of lactose, intratumoral injection of T101-ricin IT was also effective in eliminating established tumors. However, this treatment did not result in the selective elimination of tumor, since Daudi tumors also regressed following T101-ricin IT treatment. IT, made with ricin A chain only (T101-A chain IT), was also tested against established CEM tumors. We found that high dosages of T101-A chain IT did not destroy CEM tumors when injected intratumorally, even in the presence of activating agents such as NH4Cl or the carboxylic ionophore X-537 A. In contrast, in vitro experiments demonstrated that T101-A chain IT plus activating agents had potent and selective cytotoxic effect against CEM cells. We conclude that ITs are specifically toxic to established tumors. Although selectivity is not absolute, ITs exhibit potential as a new class of antitumor reagents.
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PMID:Cytotoxic effect of anti-Mr 67,000 protein immunotoxins on human tumors in a nude mouse model. 397 76

The growth inhibitory activity of human recombinant leucocyte A interferon (Ro22-8181: alpha-interferon) against 23 human cultured cell lines derived from leukemias and lymphomas was measured quantitatively by regrowth assay. Daudi cells were the most sensitive to it. Two T-cell lines (RPMI-8402, HUT78), three B-cell lines (Raji, Ly16, A3/Kawakami), one non-T, non-B acute lymphoblastic leukemia (ALL) cell line (KOPN-1) and three myelomonocytoid cell lines (U937, THP-1, ML-1) were moderately or slightly sensitive. Although the levels of sensitivity of these cell lines were different, cells could be killed by the recombinant alpha-interferon. Morphological changes in the sensitive cells treated with it were decreases in mitosis, pyknosis and fragmentation of the cells. Thirteen other cultured cell lines were not sensitive. The results indicated that the growth inhibitory activity of recombinant alpha-interferon is not always cell lineage-specific. There were only three cell lines whose sensitivity, expressed by the concentration required for 90% growth inhibition, was less than the several hundred units per milliliter that has usually been obtained as blood levels in clinical trials. These three included one of 10 T-cell lines and two of seven B-cell lines; none of six non-T, non-B ALL and myelomonocytoid cell lines were that sensitive. Among virus-associated cell lines, only Epstein-Barr virus-associated B-cell lines were sensitive to the interferon; adult T-cell leukemia virus-associated T-cell lines were not sensitive. It was demonstrated that recombinant alpha-interferon has a time-dependent, but not a concentration-dependent cytocidal action, indicating that optimal therapeutic schedules of recombinant alpha-interferon for cancer may be daily long-term treatment, not single or short-term large-dose therapy.
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PMID:Time-dependent cytotoxic action of human recombinant alpha-interferon (Ro22-8181) in vitro and the sensitivity of various cultured leukemia and lymphoma cell lines to it. 398 16

Ten human leukemia-lymphoma cell lines were tested for the growth-inhibitory effects of harringtonine (HT). HT was most active against HL-60 acute promyelocytic leukemia cells and least active against DND-41 acute lymphoblastic leukemia cells, with a 70-fold differential activity. Sensitivity of the cell lines is, in decreasing order: HL-60 greater than RPMI-8402 greater than DND-39A congruent to ML-2 congruent to MOLT-3 congruent to KG-1 greater than Daudi congruent to NALL-1 greater than BALM-2 greater than DND-41. The cell lines with rapid cell growth tended to be more sensitive to HT. To further elucidate the selectivity of the differential sensitivity, uptake and release of HT were compared in HL-60 and DND-41 cells. Uptake of [3H]HT into HL-60 and DND-41 cells showed no difference; however, the binding of [3H]HT to cellular components was greater than 16-fold higher in HL-60 cells than DND-41 cells. There were also minor, but significant differences in the inhibition of [3H]leucine incorporation into proteins of these two cell lines in the presence of 1 microgram/ml HT. To test whether the biological effects of HT are related to the concentration of, or exposure time to, HT, KG-1 cells were exposed to HT for different periods of time and the growth-inhibitory effects were compared. Increasing exposure time from 1 h to 3 h resulted in a 100-fold decrease in concentration X exposure time (c X t) at ID50; from 3 h to 6 h, in a 20-fold decrease at ID70; and from 6 h to 24 h, in a 16-fold decrease at ID90. HT was not inactivated by cells up to 24 h. These results indicate that (a) the sensitivity of different cell lines to HT may be related to the degree of HT binding; and (b) the effects of HT are more dependent on exposure time than concentration. Continuous infusion is thus rational for clinical trials of this drug, and the degree of HT binding to leukemic cells may be predictive of clinical response.
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PMID:Biologic and pharmacologic effects of harringtonine on human leukemia-lymphoma cells. 399 83

One of several human leukocyte interferon subtypes A (LeIF-A), obtained in purified form from a gene cloned in Escherichia coli, stimulated human peripheral blood natural killer cell activity, whereas another human leukocyte interferon subtype D (LeIF-D) had no effect with the use of K562 as target cells. With Daudi as target cells, both LeIF-A and LeIF-D stimulated natural killer cell activity. A hybrid human leukocyte interferon, NH2-terminal 61 amino acids and COOH-terminal 104 residues of LeIF-A and LeIF-D, respectively (LeIF-AD) showed greater stimulation than did LeIF-A, but the stimulation did not exceed that of natural buffy coat interferon. A mixture of equal antiviral units of LeIF-A and LeIF-D was no more effective than was LeIF-A alone. The cloned interferon subtypes showed differential effects on the proliferation of three human leukemic cell lines: Daudi (B-cell lymphoblastoid leukemia); BALL 1 (B-cell acute lymphoblastic leukemia); CCRF-HSB-2 (T-cell acute lymphoblastoid leukemia). Growth of Daudi cells was generally most sensitive to all the interferons tested, LeIF-A, -D, -AD, and a buffy coat preparation; no viable cells remained after 120-hr exposure to 1000-unit/ml doses of the interferons. BALL 1 was relatively resistant to the interferon subtypes tested including LeIF-AD, but this cell lines was very sensitive to a preparation of natural buffy coat interferon. CCRF-HSB-2 showed some sensitivity to all the interferons with greatest sensitivity to LeIF-A (10% of the viable cells were detected after 1000 units/ml exposure for 120 hr). In contrast to the leukemic cell lines tested, human amnion cells (WISH) and the human erythroid leukemia, K562, were resistant to the antiproliferative activity of the interferons.
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PMID:Stimulation of natural killer cell activity and inhibition of proliferation of various leukemic cells by purified human leukocyte interferon subtypes. 617 22

The results of a recent investigation, in which an antiserum specifically directed against Hodgkin (H) and Sternberg-Reed (SR) cells was prepared, indicated the existence of a granulocytic cell-specific antigen on H and SR cells. In the present study, a large series of biopsies from patients with Hodgkin's disease were subjected to immunostaining with monoclonal mouse antibodies raised against acute myelomonocytic leukemia (AMML) cells. Among seven hybrids that secreted antibodies showing reactivity to AMML cells but not to Daudi cells, there were three (TU5, TU6 and TU9) whose antibodies selectively stained formalin resistant antigens in cells of granulopoiesis. The strongest staining was found in the more mature cells; only a few promyelocytes stained very faintly with TU9, H and SR cells showed distinct staining for TU9 in 57 (76%) of the 75 tested cases of Hodgkin's disease, whereas TU5 and TU6-reactive H and SR cells were found in only 35 cases (47%). All cases of the nodular sclerosis type and almost all cases of the mixed cellularity type contained TU9-reactive H and SR cells, although the percentage varied from case to case. TU9-reactive H and SR cells were demonstrated in nine of 12 cases of the lymphocyte depletion type and in eight of 21 cases of the lymphocyte predominance type. The presence of granulocytic cell-specific antigens in H and SR cells in most of the cases of Hodgkin's disease suggest that (1) H and SR cells (including the lacunar cell variant) are not heterogeneous, but rather homogeneous in origin and nature, at least in a majority of cases, and (2) H and SR cells are more closely related to cells of the granulocytic cell lineage than to any other type of cell of the hemato-lymphoid system.
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PMID:Hodgkin and Sternberg-Reed cells contain antigens specific to late cells of granulopoiesis. 617 88


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