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)

The paper reviews methods of studying cell kinetics in man, cell population kinetics of human tumors and bone marrow, drug interactions and the cell cycle, and possible applications to chemotherapy. The conclusions drawn are: (1) Cell cycle time and S-phase duration for proliferating granulocyte precursors in human bone marrow are poorly defined but are probably shorter than median values for most human tumors, including leukemia. (2) Most drugs have greater toxicity for cycling cells and some variation in toxicity at different phases of the cell cycle. There is a special need for chemotherapy directed at slowly proliferating and hypoxic tumor cells. (3) Pretreatment indices of tumor cell kinetics are of little value in choosing drugs or in predicting response. (4) Experiments in animals have demonstrated that therapeutic index may depend on schedule. Knowledge of cell kinetics in animals rarely allows prediction of the optimal schedule and is unlikely to do so in man. Optimal schedules in mice are not directly relevant to man. (5) Measurement of tumor labeling index or DNA histogram by flow microfluorimetry to detect cell synchrony is of little benefit in scheduling if concurrent changes in bone marrow are ignored; these methods are invalid at short intervals after treatment because surviving clonogenic cells are indistinguishable from a larger number of drug-damaged cells prior to their lysis. (6) The major factor determining the outcome of chemotherapy is the availability of drugs with activity for the tumor and acceptable host toxicity. Claims that complex schedules using several drugs are effective because of synchrony or kinetic differences of tumor and normal tissue are at present unsubstantiated.
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PMID:Cell kinetics and chemotherapy: a critical review. 35 75

Previous studies of in vitro infection by human T-cell lymphoma/leukemia virus type I (HTLV-I) have required cocultivation of target cells with HTLV-I cell lines or vesicular stomatitis virus pseudotypes containing HTLV-I envelope proteins. We report here the development of a cell-free infection assay for HTLV-I. Target cells were incubated with purified, DNase-treated HTLV-I virions for 4 h at 37 degrees C. Target cell DNA was then analyzed for the presence of newly synthesized HTLV-I proviral DNA by the highly sensitive polymerase chain reaction. Using this assay system, we have been able to consistently detect in vitro infection of a variety of cellular targets by different HTLV-I isolates. Optimal infection required the presence of 10 micrograms of DEAE-dextran per ml. The assay was dose dependent with respect to virus input. In general, the amount of proviral DNA detected correlated with the level of HTLV-I receptors present on the surface of the target cells, as measured by fluorochrome-labelled HTLV-I binding. Finally, the specificity of the assay was confirmed by demonstrating that the cell line, L1q, a somatic cell hybrid containing human chromosome 17q, to which the gene for the HTLV-I receptor has been mapped, was susceptible to infection by HTLV-I, while the parental mouse cell line from which it was derived, LMTK-, which lacks human chromosome 17q, was not.
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PMID:Infection of peripheral blood mononuclear cells and cell lines by cell-free human T-cell lymphoma/leukemia virus type I. 157 77

The therapeutic efficacy of adoptive immunotherapy of cancer has been shown to positively correlate with the dose of tumor-immune T cells transferred. Therefore, the success of this therapy is critically dependent on the ability to procure large numbers of functionally active T cells. Previous studies in animal models have shown that the limited therapeutic efficacy of a small number of immune T cells can be greatly enhanced by expansion of T cells in vitro to greater numbers before transfer in vivo. Optimal regimens for T cell expansion in vitro have generally employed the use of intermittent stimulation of the TCR with specific Ag followed by exogenous IL-2. The use of IL-2 alone does not provide for requisite episodic up-regulation of IL-2R. Stimulation of the invariant CD3 portion of the TCR/CD3 complex with antibody to CD3 (anti-CD3) represents an alternative method of up-regulating IL-2R and has been used to nonspecifically induce the growth of Ag-specific T cell lines and clones long-term in vitro with maintenance of function and specificity. The current study examined whether resting T cell populations containing small numbers of memory tumor-specific T cells could be rendered more effective in tumor therapy by nonspecific expansion in vitro with anti-CD3 plus IL-2. Spleens from C57BL/6 mice previously immunized to FBL-3, a syngeneic virus-induced leukemia, were nonspecifically stimulated with anti-CD3 plus IL-2. The resultant T cells were expanded in number, were nonlytic to FBL-3 but retained the ability to become lytic upon specific stimulation by FBL-3, and were effective in specific tumor therapy. The Ag-specific anti-tumor immune function declined on a per cell basis after each cycle of anti-CD3-induced T cell expansion. However, the approach resulted in a substantial increase in total T cell number and an overall net increase in the function of the effector T cell population. Thus, stimulation of tumor-immune T cell populations with anti-CD3 plus IL-2 represents a nonspecific method for expanding the number of specific effector T cells for cancer therapy.
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PMID:T cells from tumor-immune mice nonspecifically expanded in vitro with anti-CD3 plus IL-2 retain specific function in vitro and can eradicate disseminated leukemia in vivo. 167 58

Optimal allogeneic bone marrow transplantation (BMT) presupposes the use of a HLA-identical sibling as donor. Unfortunately, only about 30% of patients have an HLA-matched donor, so that the use of alternative donors has been increasingly used. We report an analysis of 13 children transplanted using an HLA-partially matched donor as source of haemopoietic stem cells. They suffered of ALL (3 pts), ANLL (1 pt), SAA (2 pts), Osteopetrosis (1 pt), Wiskott-Aldrich Syndrome (2 pts), Severe Combined Immunodeficiency Disease (2 pts) and Familial Haemophagocitic Lymphohistiocytosis (2 pts). Full engraftment was obtained in all 11 of the patients who survived longer than 14 days and, globally, a moderate incidence of acute GvHD (grade II-IV) was observed in the evaluable patients (3 out of 11 with a percentage of 27%); only a patient of the six survivors more than one hundred days after BMT had severe chronic GvHD (16.6%). Four pts (31%) are actually alive and well (mean follow-up 358 days) with a mean Karnofsky score of 95%. Our data suggest that BMT from HLA-partially matched donors could represent a possible alternative therapeutic strategy in children when a compatible donor is not available. This is especially due to the reduced severity of GvHD in childhood and because of T-cell depleted marrow transplants could obtain more satisfactory results when employed in typical pediatric non-malignant disorders (i.e. immunodeficiencies) rather than in leukemia.
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PMID:Allogeneic bone marrow transplantation in children from other than HLA-identical sibling donor. 185 74

Unlike allogeneic bone marrow transplantation (BMT), autologous BMT is not accompanied by immune-mediated graft-versus-leukemia (GVL) effects; hence, the relapse rate observed after autologous BMT in malignant hematologic disorders is higher than that observed after allogeneic BMT. Autologous BMT represents a much safer medical procedure available for many patients in need in situations where allogeneic BMT is not feasible or risky. The present experiments were designed to investigate whether it might be possible to combine the therapeutic benefits of autologous BMT with additional immunotherapy after BMT. The tumor model used for investigating GVL effects was the murine B-cell leukemia (BCL1), a spontaneous, nonimmunogenic, highly lethal leukemia of BALB/c origin. BALB/c mice inoculated with 10(3) BCL1 leukemia cells were treated on day-1 with cyclophosphamide 100 mg/kg and transplanted with normal syngeneic BM cells on day 0. High-dose recombinant interleukin-2 (rIL-2) (100,000 Cetus units x 3/day intraperitoneally x 5 consecutive days) was initiated on day +1, +7, or +21 after BMT. Kinetics of lymphocyte reconstitution after syngeneic BMT indicated a steep increase in the absolute number of peripheral blood lymphocytes on days 17 through 24. All experimental groups were observed for relapse. Mice receiving no rIL-2 therapy relapsed and died within 50 days after BMT, whereas mice receiving rIL-2 showed long-term disease-free survival. Optimal time for administration of rIL-2 was noted at 3 weeks post-BMT, with 90% of the mice surviving with no evidence of disease for more than 1 year. Similarly, when 10(4) BCL1 cells were given 1 day after syngeneic BMT to simulate minimal residual disease after syngeneic BMT, rIL-2 therapy administered at 14 days post-BMT seemed effective in prolonging disease-free survival in contrast to the same regimen given at 1 day after BMT. Our data suggest that immunotherapy with rIL-2 should be further investigated as a new immunotherapeutic tool for decreasing the relapse rate after BMT for hematologic malignancies.
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PMID:Use of recombinant human interleukin-2 in conjunction with syngeneic bone marrow transplantation in mice as a model for control of minimal residual disease in malignant hematologic disorders. 187 88

ML-1 human myeloblastic leukemia cells, suspended in RPMI-1640 medium, differentiated to monocyte or macrophage-like cells when either tumor necrosis factor-alpha (TNF-alpha), transforming growth factor-beta (TGF-beta), or tetradecanoylphorbol acetate (TPA) was added prior to or simultaneously with fetal bovine serum (FBS). When FBS was applied first, and followed, after washing, by the cytokines or by TPA, maturation did not occur. A 77 kDa glycoprotein (DF77), isolated from human leukocyte-conditioned medium and present in FBS, was capable of replacing FBS for induction of differentiation. Thus, in this cell system, TNF-alpha, TGF-beta, and TPA acted as competence factors, whereas DF77 acted as the progression signal. Optimal competence was established after exposure of the cells to TPA or to either of the cytokines for approximately 2 or 30 min, respectively. After removal of the factors, competence was retained for approximately 3 hr before it declined. These results demonstrate that the initiation of ML-1 human myeloblastic leukemia cell differentiation relied upon the sequential and ordered input of competence and progression signals.
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PMID:Tumor necrosis factor-alpha, transforming growth factor-beta, and tetradecanoylphorbol acetate: competence factors for ML-1 human myeloblastic leukemia cell differentiation. 198 43

The major nucleoside transporter of the human T leukemia cell line CEM has been identified by photoaffinity labeling with the transport inhibitor nitrobenzylmercaptopurine riboside (NBMPR). The photolabeled protein migrates on SDS-PAGE gels as a broad band with a mean apparent molecular weight (75,000 +/- 3000) significantly higher than that reported for the nucleoside transporter in human erythrocytes (55,000) (Young et al. (1983) J. Biol. Chem. 258, 2202-2208). However, after treatment with endoglycosidase F to remove carbohydrate, the NBMPR-binding protein in CEM cells migrates as a sharp peak with an apparent molecular weight (47,000 +/- 3000) identical to that reported for the deglycosylated protein in human erythrocytes (Kwong et al. (1986) Biochem. J. 240, 349-356). It therefore appears that the difference in the apparent molecular weight of the NBMPR-sensitive nucleoside transporter between the CEM cell line and human erythrocytes is a result of differences in glycosylation. The NBMPR-binding protein from CEM cells has been solubilized with 1% octyl glucoside and reconstituted into phospholipid vesicles by a freeze-thaw sonication technique. Optimal reconstitution of uridine transport activity was achieved using a sonication interval of 5 to 10 s and lipid to protein ratios of 60:1 or greater. Under these conditions transport activity in the reconstituted vesicles was proportional to the protein concentration and was inhibited by NBMPR. Omission of lipid or protein, or substitution of a protein extract prepared from a nucleoside transport deficient mutant of the CEM cell line resulted in vesicles with no uridine transport activity. The initial rate of uridine transport, in the vesicles prepared with CEM protein, was saturable with a Km of 103 +/- 11 microM and was inhibited by adenosine, thymidine and cytidine. The Km for uridine and the potency of the other nucleosides as inhibitors of uridine transport (adenosine greater than thymidine greater than cytidine) were similar to intact cells. Thus, although the nucleoside transporter of CEM cells has a higher molecular weight than the human erythrocyte transporter, it exhibits typical NBMPR-sensitive nucleoside transport activity both in the intact cell and when reconstituted into phospholipid vesicles.
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PMID:Identification and reconstitution of the nucleoside transporter of CEM human leukemia cells. 211 49

In isotonic buffer, IgE receptor-mediated exocytosis from rat basophilic leukemia cells is dependent on extracellular Ca2+, with half-maximal degranulation requiring 0.4 mM Ca2+. No significant exocytosis occurs in the absence of extracellular Ca2+. This absolute requirement for Ca2+ is eliminated by suspending the cells in a hypotonic buffer containing 60 to 80 mM K+; Na+ cannot substitute for K+. Optimal Ca2(+)-independent exocytosis occurs in a buffer containing 20 mM dipotassium Pipes, pH 7.1, 40 mM KCl, 5 mM glucose, 7 mM Mg acetate, 0.1% BSA, and 1 mM EGTA. The cells maintain this Ca2(+)-independent exocytosis even if they are preincubated with 1 mM EGTA for 40 min at 37 degrees C before triggering. Exocytosis is eliminated as isotonicity is approached by adding sucrose, NaCl, KCl, or potassium glutamate to the buffer. Quin 2 fluorescence measurements reveal only a very small rise in [Ca2+]i when the cells are triggered in hypotonic buffer in the absence of extracellular Ca2+ and the presence of 1 mM EGTA. In isotonic buffer, degranulation does not occur under conditions that lead to such a small rise in [Ca2+]i. Sustained IgE receptor-mediated phosphatidylinositol hydrolysis, which is also Ca2+ dependent in isotonic buffer, becomes independent of Ca2+ in the hypotonic buffer. In fact, the rate of phosphatidylinositol hydrolysis in hypotonic buffer in the absence of Ca2+ (and presence of 1 mM EGTA) is twice that observed in isotonic buffer in the presence of 1 mM Ca2+. These data show that in hypotonic buffer, the requirement of IgE receptor-mediated PI hydrolysis for extracellular Ca2+ is eliminated, and degranulation proceeds with a [Ca2+]i of 0.1 microM, the baseline level of [Ca2+]i found in resting cells. These results are consistent with the hypothesis that, in isotonic buffer, the Ca2+ requirement for mast cell degranulation is for the generation of second messengers via hydrolysis of membrane phosphatidylinositols.
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PMID:IgE receptor-mediated phosphatidylinositol hydrolysis and exocytosis from rat basophilic leukemia cells are independent of extracellular Ca2+ in a hypotonic buffer containing a high concentration of K+. 214 6

NaHCO3 activated the folylpolyglutamate synthetase (FPGS) from rat liver and the human leukemia cell lines K562 and CCRF-CEM by 1.7- to 2.0-fold. Optimal activation was achieved by 10 mM NaHCO3 in all cases; NaCl, sodium formate, sodium acetate, NaN3, and Na2SO3 at 10 mM did not cause activation. Activation could be masked if assay solutions which had extensively absorbed atmospheric CO2 were used. Activation of the human CCRF-CEM FPGS was examined in detail. Km and Vmax values for pteroyl substrates (aminopterin or methotrexate) and L-glutamate increased proportionally in the presence of NaHCO3; there was thus no apparent change in the catalytic efficiency (Vmax/Km) of the FPGS reaction with these substrates. However, NaHCO3 increased the efficiency of the reaction with respect to ATP by decreasing its apparent Km while increasing the Vmax of the reaction. NaHCO3 also activated FPGS activity when folic acid, dihydrofolic acid and tetrahydrofolic acid were substrates. The relative distribution of products synthesized from methotrexate or tetrahydrofolate by FPGS was not altered by addition of NaHCO3. The potency of 5,8-dideazapteroylornithine, an FPGS-specific inhibitor, was not changed by the presence of NaHCO3 (IC50 = 0.4 microM). These results suggest that FPGS activity with folates and classical antifolates may be activated at physiological concentrations of NaHCO3. In addition, inadvertent contamination of assay solutions with bicarbonate from atmospheric CO2 may cause artifacts in the determination of activity levels and kinetic constants of FPGS.
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PMID:Activation of mammalian folylpolyglutamate synthetase by sodium bicarbonate. 216 55

The diagnostic and prognostic value of specific cytogenetic abnormalities has been established for most recurrent translocations. For less frequent changes, we still need to collect more cases for determination of their clinical significance. Optimal treatment of leukemia with modern therapeutic strategies requires knowledge of the prognostic factors, and leukemic karyotype should be one of the variable features systematically evaluated in all trials. The molecular analysis of the specific translocation will considerably increase our understanding of the mechanism of leukemogenesis and provide us with new tools for diagnosis. Systematic collection and conservation of acute leukemic cells, cytogenetically and immunologically characterized, would greatly facilitate and accelerate these fundamental studies.
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PMID:Clinical relevance of cytogenetics in acute leukemia. 218 14


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