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:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hyperthermia as well as radiation responses of multidrug resistant (CEM/VLB100 with classical MDR and CEM/VM-1 with atypical MDR), methotrexate resistant (CEM/MTX) subclones of CCRF-CEM T-lineage ALL cell line were compared with those of a drug sensitive (CEM-1-3) subclone from the same parent cell line. Also analyzed were the hyperthermia as well as radiation responses of multidrug resistant (HL60/AR) and drug sensitive subclones of the HL60 AML cell line. Notably, the drug resistant subclones of CEM and HL60 were as sensitive to hyperthermia as were the drug sensitive subclones. Importantly, no thermotolerant plateau was observed in the hyperthermia survival curves of the drug resistant subclones, indicating that drug/multidrug resistance is not associated with a greater likelihood of thermal tolerance development during hyperthermia. Similarly, the drug resistant CEM and HL60 subclones were not more radiation resistant than the drug sensitive subclones. Thus, the classical or atypical forms of multidrug resistance or methotrexate resistance of the analyzed leukemic cell lines were not associated with radiation resistance. Furthermore, the radiation survival curves of the drug resistant subclones lacked a distinct initial shoulder and their n values were not greater than those of the drug sensitive subclones, suggesting that multidrug resistance is not associated with an increased ability to repair or accumulate sublethal radiation damage. Our findings provide evidence that there is no apparent association between drug/multidrug resistance and heat or radiation sensitivity of CEM T-lineage ALL or HL60 AML leukemia cells. The results of this study indicate that acquired resistance to methotrexate, vinblastine, vincristine, etoposide, actinomycin-D, adriamycin, or daunomycin, or pleiotropic multidrug resistance do not necessarily confer radiation resistance for human leukemic cells.
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PMID:Radiation and heat sensitivity of human T-lineage acute lymphoblastic leukemia (ALL) and acute myeloblastic leukemia (AML) clones displaying multiple drug resistance (MDR). 157 9

The expression of the pluripotent stem cell antigen CD34 was evaluated at diagnosis in forty-five adult patients with de novo ALL. Comparison of clinical and hematological features between CD34 positive (24/45) and CD34 negative (21/45) patients showed that the former were of older age, had more pronounced lymphoid organ involvement and higher serum LDH levels. Immunophenotypic analysis of marrow blast cells revealed a significant predominance of the 'null' phenotype in the CD34 positive group, together with a strong expression of the VLA-4 and VLA-5 integrins (fibronectin receptors). CD34 positive ALL were also more frequently associated with either aberrant myeloid-related antigens (CD13, CD33) or the P-gp/MDR-1 phenotype. Only 11 out of 24 (45%) CD34 positive patients achieved complete remission after induction chemotherapy, compared to 20/21 (95%) CD34 negative cases. Furthermore, survival was significantly shorter in the CD34 positive group (6.6 mo. vs 13.5 mo.). These results suggest that in ALL, as in AML, CD34 positivity may predict a poor prognosis.
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PMID:CD34 expression in adult acute lymphoblastic leukemia. 749 52

We investigated the prognosis value of CD34 and P-170 expression in blast cells of adult patients affected by de novo acute myeloid leukemia (AML). CD34 antigen was analyzed by indirect immunofluorescence (IFI) and alkaline phosphatase-labeled streptavidin biotine (AP-LSAB) in 62 patients (median age: 51 years). P-170 expression was determined by AP-LSAB in 51 cases using JSB1 and C219 monoclonal antibodies. All patients were treated with conventional chemotherapy induction regimen. Follow-up was from 6 to 79 months. Complete remission (CR) rate was not statistically different between CD34+ and CD34- patients (67 vs. 84%, p = 0.2). The duration of CR and survival were not influenced by CD34 expression. Karyotype abnormalities were more frequent among MDR+ patients (65 vs. 21%, p < 0.01). CR rate was statistically lower in MDR+ patients as compared to MDR- patients (63 vs. 96%, p = 0.01). Median disease-free survival (DFS) was shorter for MDR+ patients but the difference was not significant (5 vs. 10 months, p = 0.09). Patients who were positive for both parameters CD34 and P-170, had a poor prognosis with a 50 vs. 100% CR rate for CD34/P-170 negative patients, (p = 0.002), a lower median DFS (3 vs. 12 months, p = 0.01) and overall survival (OS) (3 vs. 14.5 months, p = 0.01). Results of cytogenetic analysis did not influence CR rate but the relapse rate was higher, although not significant, for the patients with unfavorable karyotype (63 vs. 33%). The seven CD34+/MDR+ patients with poor prognosis karyotype had a statistically lower CR rate, median DFS and OS than the 7 CD34-/MDR- patients with normal or favorable karyotype (CR: 29% vs. 100%, p = 0.02), (DFS: 3 vs. > 12 months, p = 0.01), (OS: 4 vs. > 12 months, p = 0.02). Our data indicate that P-170 but not CD34 expression is predictive for a lower CR rate. The identification of a bad prognosis subgroup of CD34+/MDR+ AML patients (and especially those with poor prognosis karyotype) has to be confirmed on larger series using uniform methodology.
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PMID:P-glycoprotein (P-170) and CD34 expression in adult acute myeloid leukemia (AML). 752 90

The frequency, prognostic value and interrelation of MRP and MDR1 gene expressions were investigated by quantitative reverse transcription polymerase chain reaction (RT-PCR) in 91 cases of de novo acute myeloid leukemia (AML), of which 51 were newly diagnosed, 21 were relapsed, and 19 were refractory patients. As compared with normal bone marrow cells and peripheral granulocytes, an overexpression of MRP gene was found in 24% (22 of 91) cases of de novo AML. The incidence of MRP gene overexpression tended to be higher in relapsed patients than in newly diagnosed patients (38 vs 18%, P = 0.063). In 52 evaluable newly diagnosed and relapsed patients treated with MDR-related drugs, both MRP and MDR1 gene overexpressions correlated to a higher rate of emergence of clinical drug resistance (83 vs 22%, P = 0.005; and 67 vs 24%, P = 0.045, respectively). A positive correlation was found between MRP and MDR1 gene overexpressions (R = 0.53, P < 0.001). Analysis of 46 evaluable MDR1-negative cases revealed a trend for higher resistant disease rate in MRP-positive patients as compared with MRP-negative patients (100 vs 20%, P = 0.053). These data suggest that MRP, like MDR1, may have an important negative impact on the outcome of chemotherapy, and that there may be a common mechanism of induction for the overexpression of these two genes.
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PMID:Expression of multidrug resistance-associated protein (MRP) and multidrug resistance (MDR1) genes in acute myeloid leukemia. 756 6

We prospectively analyzed MDR functional activity by the Rh123 efflux assay in 84 de novo acute leukemias. Thirty of the 60 AML cases (50%) showed a positive dye efflux (in more than 10% of blast cells). In 19 cases, the dye efflux was superior to 30%. Twenty-four of the 30 efflux positive cases were CD34+ and could be studied in double staining. The mean percentage of effluxing CD34+ blast cells was 54%. There was a high correlation between CD34 expression and MDR activity (P < 10(-4)), MDR activity and PgP expression (P < 10(-6)). All the efflux negative samples were PgP negative. Nine efflux positive cases were PgP negative. Five of the 24 ALL were efflux positive. MDR activity did not correlate with FAB subtype (with the exception of AML3: 1/6 was efflux positive), age, white blood cell count or LDH level. Forty-seven AML patients were treated with conventional chemotherapy including cytarabine and an anthracycline. Thirty-one (66%) entered complete remission (CR). CR rate was statistically lower for efflux positive as compared to efflux negative patients, 46 vs 87% (P = 0.003), for PgP+ as compared to PgP- patients, 40 vs 78% (P = 0.01), for CD34+ as compared to CD34- patients, 45 vs 84% (P = 0.005). There was no correlation between P110 expression (32 AML cases studied) and FAB subtype, MDR status and clinical outcome. Two years survival was 20% for efflux positive patients as compared to 54% for efflux negative patients (P < 0.07), 15% for PgP+ vs 54% for PgP- patients (P < 0.04). The finding of efflux+/PgP- cases suggests the existence of other membrane efflux pumps. Rh123 efflux assay is straightforward in routine and could be included in MDR screening because of its potential interest in clinical outcome in AML.
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PMID:Multi-drug resistance (MDR) activity in acute leukemia determined by rhodamine 123 efflux assay. 765 24

Bone marrow specimens from 100 cases of acute leukemia (AL) diagnosed by MIC were detected with fluorescence microscopy for their mdr-1 expression using monoclonal antibody JSB-1 against P-glycoprotein (P-170). The results showed that almost all subtypes of AL had P-170 expression and M5 of ANLL had a significantly higher expression rate in the newly diagnosed group. The MDR expression highly correlated with the clinical drug resistance and prognosis. The Positive rate of P-170 (20.8% +/- 14.9%) and MDR expression (78.9%) of refractory group were significantly higher than newly diagnosed group (7.5% +/- 9.8% and 18.2% respectively). Cases with MDR expression had poor response to chemotherapy and bad prognosis.
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PMID:[Detection and analysis of multidrug resistance in 100 cases of acute leukemia]. 789 88

Forty one patients with acute myeloid leukemia (AML), including 27 at presentation and 14 relapsed or resistant cases, were assessed for laboratory evidence of the MDR phenotype. Leukaemic cells from all 41 cases were studied by immunocytochemistry using the JSB-1 monoclonal antibody and simultaneously by reverse transcription polymerase chain reaction (RT-PCR) to evaluate expression of the mdr 1 gene. Cells from 32/41 cases were also assessed for daunorubicin (DNR) accumulation and retention by flow cytometry (FC). Nineteen of the 41 (46%) patients were positive for MDR by JSB-1 immunocytochemistry (11/27 [41%] at presentation and 8/14 [57%] relapsed or resistant cases). Nine of the 19 (47%) P-gp positive, de novo patients achieved complete remission. 22 patients were negative by JSB-1 immunocytochemistry (16/27 [59%] at presentation and 6/14 [43%] of the relapsed or resistant cases) and 11/22 (50%) P-gp negative patients achieved a complete remission. Of the 32 patients assessed by FC, 7 (22%) were positive for the MDR phenotype with increased DNR accumulation and retention in the presence of the MDR reversing agent verapamil (VPM). 6/7 of the FC positive cases were also JSB-1 positive, and 6 had additional poor risk features. Of the twenty five FC negative patients, 6 had received previous chemotherapy and 15 (60%) achieved complete remission. Mdr 1 mRNA levels were increased in all seven FC positive cases whereas only 7/19 JSB-1 positive cases had raised mdr 1 mRNA levels. These results suggest that the assessment of MDR status by immunocytochemistry using JSB-1 is not predictive of response to chemotherapy. Flow cytometric analysis of blast cells appears to correlate well with mdr 1 mRNA levels and may be a better predictor of treatment outcome.
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PMID:Flow cytometric assessment of multidrug resistance (MDR) phenotype in acute myeloid leukaemia. 790 78

Drug resistance in acute myeloid leukaemia (AML) may be caused by overexpression of the P glycoprotein (PGP), an efflux pump encoded by the multidrug resistance mdr 1 gene. Previous studies have suggested that increased PGP expression in the leukaemic blasts is of prognostic significance, and that use of PGP antagonists may be beneficial in treatment. We describe preliminary results with a non-isotopic quantitative MDR 1 cDNA-PCR assay, using an artificial RNA construct sharing primer recognition sites with the target MDR 1 mRNA (MDR 1 nucleic acids 483-504 and 624-644) as an internal control. KB 3.1 parent and KB 8.5 MDR positive cell lines expressed 0.004 and 1.96 molecules MDR 1 mRNA/pg total RNA. Semiquantitative screening of 60 RNA samples from 53 AML cases detected MDR 1 transcript ranging from 0 to 1.81 molecules per pg RNA. The median value at presentation (33 patients) was 0.055 and was higher in 14 patients at relapse (0.13) and in seven patients with refractory disease (0.14). Quantitation of MDR 1 transcript in serial samples in seven treated patients between presentation and relapse showed the decrease in three patients (0.18-0.02 x) to be as marked as the increase in three other patients (3-16 x). The method described is well suited for the study of clinical samples because it is sensitive, specific, rapid and requires small amounts of clinical material.
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PMID:Quantitation of multidrug resistant MDR1 transcript in acute myeloid leukaemia by non-isotopic quantitative cDNA-polymerase chain reaction. 791 25

The expression of the MDR1 gene, a multidrug resistance gene, was determined in patients (N = 24) with myelodysplastic syndrome or acute myeloid leukemia evolving from it. MDR1 RNA expression of the mononuclear cells was detected in 14 (58%) patients. Among patients who had progressed to acute myeloid leukemia (sAML) (N = 14), MDR1 RNA expression was seen in 8 (57%) patients. Expression was observed in the 2 patients who had been pretreated with MDR drugs. These findings indicate that the MDR1 gene is frequently expressed in MDS or sAML and suggest that multidrug resistance might be involved in the clinical drug resistance of these diseases.
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PMID:MDR1 gene expression in myelodysplastic syndrome and in acute myeloid leukemia evolving from myelodysplastic syndrome. 791 92

To evaluate the frequency and the prognostic value of different mechanisms of drug resistance in acute leukemias, we investigated the expression of mdr1 by immunocytochemistry, mRNA slot blot or RT-PCR in 182 cases of adult acute myeloid and 37 cases of adult lymphoblastic leukemia. Before treatment, 39% of de novo AML, 38% of secondary AML, and 7% of de novo ALL exhibited a high level of mdr1 mRNA. After chemotherapy, the frequency of mdr1 gene expression in ALL raised dramatically to 60% (P < 0.005), while no significant change was found for AML cases. In 91 patients treated with MDR-related drugs, mdr1 gene expression was related to the failure of chemotherapy (P < 0.0001). The overexpression of multidrug resistance-associated protein (mrp) and anionic glutathione S-transferase (GST pi) was also investigated in 38 and 61 AML patients respectively. An overexpression of mrp gene was noted in 39% of the cases. For GST pi gene, the frequency of overexpression was 28%. A positive and significative correlation was found among mdr1, mrp and GST pi genes expression.
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PMID:Expression of resistance genes in acute leukemia. 807 75


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