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)

Anthracycline accumulation was evaluated by flow cytometry or radiolabeled drug assays in cells and cytoplasts (enucleated cells) prepared from parental and multidrug-resistant human K562 leukemia cells. Treatment with energy inhibitors, such as dinitrophenol (DNP) or sodium azide/deoxyglucose, led to a marked decrease in daunorubicin accumulation in parental cells and cytoplasts. Another ionophore, monensin, also caused a significant decrease in daunorubicin accumulation; however, ATPase inhibitors ouabain, vanadate, and N-ethylamaleimide had little or no effect. The lysosomatropic agents chloroquine and methylamine caused a moderate decrease in anthracycline accumulation. Fluorescence microscopy showed that the DNP-sensitive daunorubicin uptake occurred in a nonnuclear subcellular compartment. Studies using increasing daunorubicin concentrations demonstrated fluorescence quenching that occurred in the nonnuclear, DNP-sensitive compartment. The effect of inhibitors on the accumulation of rhodamine 123 and acridine orange strongly implicated lysosomes as the principal compartment of this inhibitable daunorubicin accumulation. Cytoplasts from P-glycoprotein containing multidrug-resistant K562 cells demonstrated a verapamil-reversible, decreased daunorubicin accumulation that was observed in resistant whole cells. Verapamil pretreatment of cytoplasts from resistant cells revealed the subcellular DNP-sensitive uptake present in parental cytoplasts. These studies demonstrate that cytoplasts are an effective means to study drug transport in mammalian cells without nuclear drug binding. Parental K562 cells and cytoplasts exhibit an energy-dependent accumulation of daunorubicin into cytoplasmic organelles that is also present in resistant cells and cytoplasts when P-glycoprotein mediated efflux is inhibited.
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PMID:Energy-dependent accumulation of daunorubicin into subcellular compartments of human leukemia cells and cytoplasts. 135 Feb 80

Either p-glycoprotein (pgp) or the encoding gene mdr1 expression has been reported to be correlated with multidrug resistance and poor treatment response. To investigate the incidence of pgp in refractory hematological neoplasms we analyzed malignant cells from 40 patients by an immunoperoxidase method using the monoclonal antibody C219. Pgp was positive in 75% of acute nonlymphoblastic leukemia (ANLL) and 50% of acute lymphoblastic leukemia (ALL). Pgp positivity was similarly distributed in both Tdt (-) and (+) ANLLs (64% versus 100%). Addition of Verapamil (VRP) (12 patients) or Cyclosporine A (CsA) (7 patients) to the previous chemotherapy protocol resulted in complete response in 7 (58%) and 3 (43%) of the patients respectively. Partial response was observed in one patient who received CsA. Both chemosensitizers were tolerated well with few reversible side effects. The preliminary results of this study have been presented in the 15th International Cancer Congress, August 1990 Hamburg, Germany.
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PMID:P-glycoprotein expression in refractory hematological neoplasms and circumvention of resistance with verapamil or cyclosporine A containing protocols. 136 32

Verapamil has been shown to overcome acquired drug resistance to vincristine in P388 leukemia both in vitro and in vivo. To study the selectivity of this action, the effect of addition of verapamil on the cytotoxicity of vincristine was studied using lymphocytes from eight patients with chronic lymphocytic leukemia (CLL), lymphoblasts from a T-acute lymphoblastic leukemia (T-ALL) cell line (GM 3639), and peripheral blood lymphocytes (PBL) from eight normal healthy volunteers. Using the differential staining cytotoxicity (DiSC) assay, we demonstrated that verapamil at 1 microM concentration potentiated the in-vitro cytotoxicity of vincristine on CLL and GM 3639 cells in concentrations of 0.04-0.25 micrograms/l. There was however, no enhancement of cytotoxicity noted against the control PBL. The data demonstrate that verapamil preferentially enhances the in-vitro cytotoxicity of vincristine on CLL and GM 3639 cells but no enhancement of cytotoxicity is seen against PBL.
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PMID:Verapamil preferentially potentiates in-vitro cytotoxicity of vincristine on malignant lymphoid cells. 139 18

We have used a 4-day MTT colorimetric assay to study drug sensitivity of leucocytes from leukaemia patients and from normal donors. Response to Adriamycin, vincristine, aclacinomycin A, 3'-deamino-3'-morpholino-13-deoxo-10-hydroxycarminomycin (MX2), and melphalan has been determined, together with the effects of the resistance modifiers verapamil, cyclosporin A, and ethacrynic acid. Sensitivity of chronic lymphoblastic leukemia (CLL) lymphocytes to vincristine was much greater than that of normal lymphocytes or of leucocytes from myeloid leukaemia patients. These cells were also more sensitive to melphalan. Verapamil and cyclosporin A at clinically achievable doses of 1 microgram/ml produced significant chemosensitisation in normal and leukaemic specimens, but the sensitisation ratio was greater than or equal to 2 only in a minority of specimens, except in the case of sensitisation to vincristine seen in the majority of CLL specimens. Sensitisation was generally greater in the more chemo-resistant specimens. The ratio of sensitivities of cells to Adriamycin compared with aclacinomycin A was greatest in the more Adriamycin-resistant specimens which supports the idea that cross-resistance between these agents may not be great. This was not, however, true for the ratio of Adriamycin/MX2 sensitivity. Use of the MTT assay may allow the identification of patients who would benefit from treatment with resistance modifiers or with 'low-resistance' anthracyclines.
Leukemia 1992 Oct
PMID:Resistance circumvention strategies tested in clinical leukaemia specimens using the MTT colorimetric assay. 140 60

The expression of the P-glycoprotein which is associated with the development of multidrug resistance in various cell lines was investigated in 87 fresh acute leukaemia and multiple myeloma samples using the specific mouse monoclonal antibody MRK16 in an indirect immunofluorescence assay. Considering a 10% positive cell cut-off value, a heterogeneous expression of P-glycoprotein was observed in 5/22 (22.7%) de novo acute leukaemias, 7/22 (31.8%) relapse or secondary acute leukaemias, 14/27 (51.8%) acute transformation of myeloproliferative or myelodysplastic syndromes and 5/16 (31.2%) multiple myelomas. This expression was not associated with specific cytogenetic abnormalities, especially alterations of chromosome 7q. Verapamil, a calcium channel blocker, has been demonstrated to circumvent the multidrug resistance in cell lines, possibly by interfering with P-glycoprotein function. Using the microculture tetrazolium assay, verapamil was demonstrated to increase the sensitivity of fresh leukaemic or myeloma cells to doxorubicin in 19/43 (43.1%) samples. The doxorubicin IC50 level and the capacity of verapamil to increase the sensitivity of blast cells to doxorubicin in vitro did not correlate with the expression of P-glycoprotein. We conclude that high non-cytotoxic concentrations of verapamil were able to increase the in vitro doxorubicin sensitivity of fresh acute leukaemia and myeloma cells without detectable expression of the P-glycoprotein.
Leukemia 1991 Jul
PMID:P-glycoprotein expression and in vitro reversion of doxorubicin resistance by verapamil in clinical specimens from acute leukaemia and myeloma. 167 57

The effect of calcium antagonist verapamil on the uptake and efflux of Etoposide (VP16), a semi-synthetic derivative of podophylotoxin and a broad spectrum antineoplastic agent, has been investigated and compared in sensitive (UM-UC-2) and resistant (UM-UC-9) human bladder cancer cells, and L1210 leukemia cells, by using both radioisotope (3[H]-VP16) liquid scintillation and high performance liquid chromatography assay with electrochemical detection. The uptake of VP16 was rapid in all three cell lines, showing an initial rapid linear phase followed by a second slower phase, but at steady state the ratios of intracellular to extracellular VP16 concentrations were only 0.004-0.006. No significant difference in drug uptake was observed in sensitive UM-UC-2 and resistant UM-UC-9 cells at all concentrations studied. Verapamil at a concentration of 10 microM enhanced the intracellular VP-16 levels in all sensitive and resistant cell lines. The increments were 21.5% for UM-UC-2, 11.8% for UM-UC-9, and 31.0% for L1210 cells after 30 minutes incubation with 1 microM VP16. A slower efflux of VP16 was observed in verapamil treated cells in all three cell lines. There was a small increase in the nonexchangeable components in verapamil treated cells, although only 5-10% of VP16 was retained. No peak other than that of VP16 was detected in the HPLC chromatogram of extracts from both cell pellet and influx or efflux medium.
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PMID:Effect of verapamil on the uptake and efflux of etoposide (VP16) in both sensitive and resistant cancer cells. 175 30

We previously reported that MX2, a new morpholino anthracycline, showed marked effects on pleiotropic drug-resistant sublines of murine P388 leukemia in vivo as well as in vitro. In this study we examine the in vitro cytotoxicity against pleiotropic drug-resistant sublines of human tumor cell lines. MX2 was effective against multidrug-resistant sublines of four human tumor cell lines; these cells, having a 4.8- to 200-fold cross-resistance to Adriamycin (ADM) showed only a 0.7- to 2.3-fold resistance to MX2 compared with the sensitive cells. To elucidate the mechanism by which MX2 overcomes multidrug resistance, the intracellular pharmacology of MX2 in human myelogenous leukemia K562 and its ADM-resistant subline (K562/ADM) was examined. Both K562 and K562/ADM cells accumulated MX2 more easily than ADM, and the intracellular accumulation of MX2 attained a steady state in both cell lines within 30 min of incubation at 37 degrees C. The amount of MX2 that accumulated in K562/ADM at a steady state was only 1.3 times lower than that in K562. However, ADM was accumulated slowly in both cell lines compared with MX2, and the intercellular concentration reached a steady state in K562/ADM after 90 min of incubation and in K562 after more than 120 min. K562/ADM cells accumulated a 3.3-fold lower concentration of ADM than K562 after 120 min of exposure. The steady-state concentration of ADM in K562/ADM was 8.3 times lower than that of MX2. In addition, greater than 70% of MX2 was retained in both cell lines after 150 min of incubation in the absence of this drug. Verapamil, a calcium antagonist, hardly augmented the cytotoxicity of MX2 against K562/ADM, and no distinct effect of this drug on both the time course and the maximal level of accumulation of MX2 was observed. Interestingly, MX2 effectively inhibited ATP/Mg2(+)-dependent [3H]vincristine binding to K562/ADM membrane preparations, indicating that MX2 could be transported outside the cell by an active efflux pump. The high intracellular accumulation and retention of MX2 in K562/ADM through the rapid influx of the drug into the cells may be one of the reasons why MX2 circumvents pleiotropic drug resistance.
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PMID:Cellular pharmacology of MX2, a new morpholino anthracycline, in human pleiotropic drug-resistant cells. 198 80

We studied the effects of two modulators of multidrug resistance (MDR), cyclosporine and verapamil, on the cytotoxicity of etoposide (VP-16) in normal human bone marrow; two human leukemia cell lines, K562 and CEM; their MDR variants, K562/DOX and CEM/VLB; and mixtures of normal marrow and leukemic cells. VP-16 was selectivity toxic to the parental leukemic cells, with IC-50 values of 2 microM for CEM cells, 1.5 microM for K562 cells, and 12 microM for normal marrow CFU-GM. This selectivity was lost in the MDR variant leukemia cells, with IC-50s of 20 microM in K562/DOX and 8 microMs in CEM/VLB. Cyclosporine, 6 microMs, and verapamil, 20 microM, alone were nontoxic to bone marrow CFU-GM, and did not significantly increase the toxicity of VP-16 to normal marrow cells or to the two drug-sensitive leukemic cell lines. However, cyclosporine specifically enhanced the cytotoxicity of VP-16 in the MDR leukemia cells, reducing the IC-50 to the same level as the parental sensitive cells. Verapamil was considerably less effective. In a mixing experiment that included K562/DOX cells and normal bone marrow, cyclosporine increased the toxicity of VP-16 to the resistant leukemic cells by nearly 20-fold. Because the cytotoxic effect of cyclosporine is additive for resistant tumor cells, its combination with VP-16 may be useful in the purging of contaminating tumor cells prior to autologous bone marrow transplantation.
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PMID:Modulation of etoposide (VP-16) cytotoxicity by verapamil or cyclosporine in multidrug-resistant human leukemic cell lines and normal bone marrow. 222 79

Using mice BDF1 it has been shown that the period of retention of Doxorubicin (Dx) is shorter in the leukemia P388 cells with induced antibiotic resistance (P388/Dx) as compared to P388 cells sensitive to Dx. Administration of Verapamil (Vp) to animals leads to an increase of Dx concentration in the leukemia P388/Dx cells during a 240 min observation period. Vp promotes the therapeutic effect of Dx on P388/Dx bearing mice. It can be suggested that the mechanism of Vp action consists in the damaged Dx elimination from cells with induced resistance, since Vp doesn't change the period of circulation of the antibiotic in the blood plasma of mice.
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PMID:Verapamil effect on the accumulation of doxorubicin in the leukemia P388 cells with induced antibiotic resistance. 233 61

The effect of verapamil (calcium influx blocker) on adriamycin-induced cytotoxicity against sensitive and resistant subline of K 562 acute myelogenous human leukemia cells has been evaluated. Verapamil by itself at a concentration of 0.5 microgram/ml did not affect the cell growth. It was found that the nontoxic concentration of verapamil moderately enhanced adriamycin cytotoxicity against K 562 cells, showing enhancement ratio of 1.3-1.4 according to the schedule used. A significant enhancement of adriamycin cytotoxicity (enhancement ratio of 5.8) was observed when verapamil and adriamycin were administered simultaneously against resistant subline of K 562/ADM cells. The results obtained give grounds to assume that verapamil could be used to overcome drug resistance in tumor cells.
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PMID:Effect of calcium influx blocker verapamil on adriamycin-induced cytotoxicity in leukemia cells in vitro. 263 1


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