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Association of specific cytogenetic aberrations with mdr1 gene expression in adult myeloid leukemia and its implication in treatment outcome
Abstract and Figures
Cytogenetics and mdr1 expression are established prognostic factors for treatment outcome in adult acute myeloid leukemia (AML). The association, however, between specific cytogenetic aberrations and mdr1 expression has not yet been examined in a large cohort of patients.
We therefore looked for mdr1 gene expression at diagnosis within specific cytogenetic aberrations in 331 previously untreated adult patients with de novo or secondary AML (not including t(15;17)) entered into the German SHG AML96 treatment trial.
The proportion of mdr1 positive blast probes was significantly higher in patients with aberrant karyotypes than in those with normal karyotypes (39% vs. 15%; p<0.001). Looking at specific cytogenetic aberrations significantly more mdr1 positive AML patients were found within t(8;21), +8, +21, del(7q), del(5q), -7, abn(3q) and multiple aberrations. In contrast, no patient with inv(16) was positive for mdr1. Only 26% of mdr1 positive patients with aberrant karyotypes achieved complete remission (CR) whereas 54% of the mdr1 negative counterparts did so (p=0.002). Furthermore, within abn(11q), +21, +22, -5 or abn(3q) no mdr1 positive patient reached CR, whereas the mdr1 negative counterparts had CR rates comparable to the CR rate of patients with a normal karyotype. This was most impressive in mdr1 negative patients with multiple aberrations achieving a CR rate of 63% (p=0.019). In the multivariate analysis age, disease status and mdr1 expression were the strongest independent predictors for induction treatment failure.
The correlation described here between mdr1 gene expression and some cytogenetic aberrations might explain the prognostic divergence of such cytogenetic aberrations in different AML treatment trials due to the amount of mdr-drugs used within the protocols.
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... In geriatric people, usually cardiac output and vascular flexibility diminish and make reduction in peripheral tissue perfusion (38). Additionally, Methadone is a p-glycoprotein substrate drug and some researchers have suggested that the activity of p-glycoprotein increases in people over 56 years old (39). This can lead to resistance against drug penetration into the cells. ...
Background: Methadone is used for the pain management worldwide. Its special characteristics make it a potential alternative for pain management in critically ill and geriatric patients. Due to lack of studies in this population, we aimed to compare the pharmacokinetic behavior of Methadone following intramuscular and intravenous administration in geriatric ICU patients and with previously reports in healthy volunteers.
Methods: According to the limitations in ICU setting, we could include 11 patients over 65 years old, who required opioid for pain relief in this study. Patients were randomized to receive 5 mg of Methadone IM or IV injection every 8 hours for 6 days. The Methadone plasma level detected with LC-mass tandem mass spectrometry, and pharmacokinetics parameters were evaluated for each subject in both 1st and 6th days of treatment.
Results: Based on our results, bioavailability of intramuscular Methadone in geriatric ICU patients was low and less than 40% of the dose was absorbed within first 12 hours. The volume of distribution of Methadone in the first day was significantly lower than the previously reported values in healthy subjects and significantly increased during these 6 days. The Methadone half-life in this population also significantly increased through this period.
Conclusion: Pharmacokinetic behavior of Methadone in geriatric ICU patients is unpredictable. Reduced volume of distribution and half-life may be observed initially, following with an increase to the normal range. It seems that IM administration of Methadone in geriatric critically ill patients may not provide target analgesic Methadone serum levels.
... For this reason, most studies concerning the treatment response in AML with t(8;21) have been devoted to identification of useful markers that can be measured at diagnosis to predict poor outcomes. Representative clinically significant examples include the association of natural killer cell antigen CD56 and P-glycoprotein with inferior outcomes in t(8;21)-positive AML patients (6)(7)(8)27). However, neither of these factors is linked with favorable outcomes in patients carrying this aberration. ...
Although acute myeloid leukemia (AML) exhibits diverse responses to chemotherapy, patients harboring the t(8;21) translocation are part of a favorable risk group. However, the reason why this subgroup is more responsive to cytarabine-based therapy has not been elucidated. In the present study, we analyzed expression levels of cytarabine metabolism-related genes in patients diagnosed with AML with or without t(8;21) and investigated their correlation with clinical outcomes after cytarabine-based therapy. Among the 8 genes studied, expression of the concentrative nucleoside transporter 3 (CNT3) gene was significantly higher in t(8;21)-positive patients compared to the others in the test population and the validation cohort (P<0.001 in Mann-Whitney U test; P<0.002 in Pearson's correlation analysis). Additionally, in both multivariate and univariate analyses, t(8;21)-positive patients categorized in a higher CNT3 expression tertile had longer disease-free survival [hazard ratio (HR), 0.117; 95% confidence interval (CI), 0.025-0.557; P=0.008] and overall survival (HR, 0.062; 95% CI, 0.007-0.521; P=0.010) compared to t(8;21)-positive patients in a lower CNT3 expression tertile. Notably, these trends did not occur in t(8;21)-negative patients. Our results demonstrate that CNT3 expression is associated with overall favorable outcomes and is predictive of clinical outcomes in AML patients with t(8;21). This suggests that CNT3 expression can be used to optimize treatment strategies for AML patients.
... In these studies the cytogenetics profile remains the most important feature for the clinical prognosis. Three risk categories -favorable, intermediate and poor risk-have been recognized based upon outcomes by chromosomal abnormalities in several large series of patients that differently benefit of the novel designed clinical regimens [91,92]. However, in the last few years, there have been several practice changing developments in the diagnosis and treatment of AML. ...
Background:
The treatment of cancer remains a formidable challenge owing to the difficulties in differentiating tumor cells from healthy cells to ameliorate the disease without causing intolerable toxicity to patients. In addition, the emergence of MDR1-Pgp mediated multi-drug resistance (MDR) it is a biological phenomenon that inhibits the curative potential of chemotherapeutic treatments. One way to improve the selectivity of therapeutic molecules in tumors would be to target them on the tumor site, thereby sparing normal tissues.
Aims:
In this overview, we will discuss the biological factors influencing the safety and efficacy of the humanized mAb hP67.6 linked to the potent cytotoxic drug calicheamicingamma1 (gemtuzumab ozogamicin) that target CD33 cell surface antigen expressed on AML cells. In addition, we highlight key aspects of MDR1-Pgp biology as a platform to understand its functional role in gemtuzumab ozogamicin immunotherapy which is tightly linked to an accurate assessment of the MDR status of AML cells.
Discussion:
Several factors may affect the efficacy and safety of immunoconjugates. These include the common issues of chemical and antibody therapeutics such as specificity, heterogeneous target antigen expression and the complex pharmacokinetics profile of conveyed antibody. Further, the delivered drug may not be sufficient for providing therapeutic benefit, since the curative cytotoxic compound may be affected by intrinsic or acquired resistance of target cells. These and other potential problems, as well as the possible ways to overcome them will be discussed in this review by examining the biological factors involved in safety and efficacy of the first in class antibody drug conjugate (ADC) gentuzumab ozogamicin. Despite this set-back, the extensive recorded data and the lessons learned from gentuzumab ozogamicin recently withdrawn from the market for safety concerns helped to pave the way for next generations of clinically promising new ADCs which are currently investigated in clinical trials and two of them, Brentuximab vedotin, and Trastuzumab emtansine (T-DM1) have been recently approved for commercial distribution in US by Food and Drug Administration (FDA).
... AML in the elderly is associated with multidrug resistance [38], and fludarabine has been suggested to be active against leukemic cells expressing MDR1 or MRP1 [17,39]. In our study, fludarabine may improve prognosis in elderly AML patients. ...
We performed a phase II trial to evaluate the efficacy and safety of the modified fludarabine, cytarabine, and attenuated-dose idarubicin (m-FLAI) regimen in elderly acute myeloid leukemia (AML) patients. Elderly (≥60 years) AML patients who had not previously received chemotherapy were enrolled in the study. Patients received two consecutive cycles of m-FLAI chemotherapy as an induction. The m-FLAI regimen comprised fludarabine (25 mg/m(2) , days 1-4), cytarabine (1,000 mg/m(2) , days 1-4), and attenuated-dose idarubicin (5 mg/m(2) , days 1-3). The primary end point was complete remission (CR) rate. Secondary end points were overall survival (OS), event-free survival (EFS), and treatment-related mortality (TRM). There were 108 patients (median age 68.4 years, M:F = 64:44) enrolled in the study. CR was achieved in 56.5% of patients, and the TRM rate was 21.3%. Median OS and median EFS were 10.2 and 6.6 months, respectively. The mortality at 30 and 60 days was 15 and 21%, respectively. Performance status and comorbidity did not have prognostic value in this patient cohort. Bone marrow expression of CD117 was associated with increased EFS and OS. m-FLAI is an effective induction regimen for previously untreated AML in elderly patients. In addition, bone-marrow CD117 expression is an independent favorable prognostic factor in elderly AML patients. (ClinicalTrials.gov number, NCT01247493). Am. J. Hematol. 2012. © 2012 Wiley Periodicals, Inc.
Acute leukemia is a worldwide disease with an incidence of approximately 4/100 000 per year; 70% of the cases are acute myeloid leukemia (AML). The salient pathologic feature of AML is the excessive accumulation of immature myeloid blasts in the bone marrow (BM). This maturation arrest, a characteristic of acute leukemias, prevents normal hematopoiesis and leads, directly or indirectly, to a lack of differentiated granulocytes, monocytes, thrombocytes, and erythrocytes. Chromosome banding analyses reveal acquired, clonal chromosomal abnormalities in the majority of AML cases, with the frequencies and types of aberrations to some extent being influenced by factors such as age, previous treatment/genotoxic exposure, gender, geographic/ethnic origin, and constitutional genetics. This chapter summarizes the cytogenetic, molecular genetic and clinical features of AML-associated numerical and structural abnormalities. It explains the characteristic karyotypic patterns in AML. Complex Karyotypic (CK), monosomal Karyotype (MK), normal Karyotype (NK) are the chromosomal abnormalities reported in AML.
The data concerning the incidence of MDR1 gene over-expression [MDR1(+)] in chronic myeloid leukemia (CML) are scarce and contradictory. In this study, we determined the MDR1 gene expression in 55 newly diagnosed chronic phase CML patients using reverse transcription polymerase chain reaction. MDR1(+) was found at the diagnosis in 32 patients (58.2%). Among the remaining 23 patients with normal level of MDR1 [MDR1(-)] expression at the initial testing, a secondary switch to MDR1 over-expression was detected during the clinical course of the disease in 2 cases. MDR1(+) status was significantly more frequent in elderly patients aged above 60 years [73.9% vs. 46.9% in MDR1(+) and MDR1(-), respectively] and was associated with lower white blood cell count [88.4±56.5 G/L vs. 145.8±69.1 G/L in MDR1(+) and MDR1(-)]. No correlation between MDR1(+) status and type of the fusion BCR-ABL gene was seen (62.9% in patients with b2a2 and 53.6% in patients with b3a2). Response to interferon alpha (IFN-alpha) was independent of MDR1 expression, since among 14 patients with a 3-year hematological remission, 8 (57.1%) were MDR1(+)and 6 (42.9%) - MDR1(-).
Cytogenetic and molecular techniques are routinely applied in laboratory diagnostics of acute leukemia. The detection of genetic aberrations not only assists with diagnosis and treatment decisions, but also adds important prognostic information. The role of genetic aberrations is reflected by WHO classification of acute myloid leukemia (AML) and in stratification to three cytogenetic risk group: low [with t(8;21) and AML1-ETO fusion gene, inv(16)/t(16;16) with CBFB-MYH11, t(15;17) with PML-RARα], intermediate [normal karyotype, +8, -Y, del(12p)], high [aberrations of chromosomes 5 and 7, t(3;3), t(6,-9), t(9;22), complex karyotype]. The cytogenetic risk group stratification is one of the most important factor determining the treatment outcome. The patients in intermediate and high risk group should undergo stem cell transplantation (SCT) in first complete remission (CR). In contrast patients in low cytogenetic risk group should receive SCT in second CR. Induction treatment with trans-retinoic acid is indicated in AML with PML-RARα fusion gene, while patients with core binding factor AML benefit from consolidation composed of high dose AraC. The concomitant use of cytogenetic (karyotype, FISH), and molecular methods has significantly improved stratification into cytogenetic risk group. Several studies indicate the new genetic aberrations [FLT3 aberrations, mutation of NPM gene (nucleophosmin)] allowing better prediction of the treatment outcome in patients in intermediate cytogenetic risk group. Gene rearrangements associated with leukemia can be used as molecular markers allowing the detection of minimal residual disease (MRD) using real time PCR method. The role of molecular monitoring of PML-RARα transcript in patients in CR is already established and other fusion genes transcripts are evaluated.
Abstract Data from 30 pharmacogenomic studies that investigated MDR1 mRNA expression or gene variants (C3435T, G2677TA, C1236T) and response to therapy in acute myeloid leukaemia (AML) were synthesized. Anthracycline-based regimens were mainly used. MDR1 mRNA overexpression was associated with poor response to therapy [odds ratio (OR) = 2.49 95% confidence interval (CI) 1.38-4.50]. The gene variants were not associated with response to treatment; the generalized ORs, a genetic model-free approach, for the variants C3435T, G2677TA and C1236T were ORG = 0.86 (95% CI 0.55-1.37), ORG = 0.97 (95% CI 0.58-1.64) and ORG = 1.17 (95% CI 0.75--1.83), respectively. There is indication that MDR1 mRNA expression may be considered as a potential marker for response to chemotherapy in AML patients.
Acquired trisomy 21 is one of the most common numerical abnormalities in acute myeloid leukemia (AML), myelodysplastic syndrome (MDS), myeloproliferative neoplasms (MPN), and MDS/MPN; however, little is known about its pathogenic impact, accompanying submicroscopic changes, and its relation to other clinical features. Furthermore, previous studies addressing this issue have mainly focused on cases in which +21 was part of a complex karyotype.
We ascertained the incidence of +21, both as a sole change (T21s) and irrespective of additional changes (T21all), in relation to disease type, morphologic subgroup, gender, and age in all published AML, MDS, MPN, and MDS/MPN cases. Furthermore, single nucleotide polymorphism (SNP) array analysis was performed on 11 myeloid malignancies with T21s, followed by mutation analysis of the FGFR1, FLT3, GATA1, JAK2, KIT, NPM1, NRAS, RUNX1, and TET2 genes.
The frequencies of T21s and/or T21all varied significantly among the AML, MDS, MPN, and MDS/MPN cases, among the AML and MPN subtypes, and in relation to the age of the AML, MDS, and MPN patients. In the 11 cases analyzed by SNP array, a total of nine genomic imbalances, comprising seven deletions and two duplications, were identified in six cases; none of the alterations were recurrent. Partial uniparental disomies (UPDs) were found in five cases; two recurrent UPDs were identified, namely UPD4q and UPD7q. Mutations in NPM1, RUNX1, and TET2 were detected in five cases, three of which harbored a pathogenic RUNX1 mutation. The TET2 mutation was found in one of the cases with UPD4q.
The results show that trisomy 21-positive myeloid malignancies are clinically highly variable and that they display a heterogeneous pattern of copy number alterations and mutations.
Resistance to cytotoxic therapy and development of refractory disease in acute myeloid leukemia (AML) is frequently associated with the expression of mdr1/P-gp. In the last years many potential signaling pathways leading to modulation of mdr1 expression have been described. Thus, it has been assumed that activated Ras may influence mdr1 expression. This activation can be realized by mutations in the Ras oncogene leading to constitutive signaling. Ras mutations are observed in many human cancers, including AML. Recently, we could show a negative correlation between Ras mutations and mdr1 expression in blast samples of AML patients. Taking this up the potential possibilities of Ras influence on mdr1 activity and their implications on treatment outcome in AML are discussed.
The wide discrepancies in the frequency of ‘positive’ samples for multidrug resistance (MDR) phenotype within the same type of tumor observed in the literature justified the need for the definition of consensus recommendations. To define standard techniques of MDR phenotype measurement, we ran a large multicentric evaluation of the different methods available. Thirty-six French centers participated in the study, and 742 samples of 2–10 × 106 viable cells were sent by overnight express mail between December 1993 and February 1996. The same batches of MRK16, 4E3 and UIC2 were used. Nineteen samples of leukemia (12 AML, 1 ALL, 6 lymphoproliferative syndromes) and six leukemic cell lines with different levels of MDR expression were tested. Five meetings reached agreement concerning the guidelines for each technique, except immunocytochemistry. The 19 fresh samples were tested by each center using one to four techniques among cytofluorometry, immunocytochemistry, functional tests and RT-PCR. Five samples were diagnosed as ‘negative’ according to local criteria, with few discordant results (0 to 16% of ‘positive’ results). For all the 14 remaining samples, large discrepancies were observed from center to center, and from one technique to another. No correlations could be found between techniques. Flow cytometric analysis of cells already exposed to MRK16 or control IgG2A, fixed in paraformaldehyde and sent to centers did not reduce the discrepancies between centers in two of the four samples with moderate expression, emphasizing the role of histogram interpretation. The use of alternative monoclonal antibodies (4E3 and UIC2) did not reduce the discrepancies observed. In a second step, the K562 parental cell line, a low resistant subline (K562/HHT100, ×7 resistance index to DNR) and a high resistant subline (K562/HHT300, ×125 resistance index to DNR) were sent blindly three times, with an increasing level of recommendations for flow cytometry. Dramatic improvements were observed in cytometric results when the result was expressed as the ratio of arithmetic mean of fluorescence of antibody (10 μg of MRK16)/arithmetic mean of fluorescence of control (10 μ g IgG2A): the proportion of expected results increased from 61 to 100% for K562, and from 37 to 85% for K562/HHT100. For uptake and drug efflux measurements, the use of 1 h uptake of 0.1μ M of rhodamine, followed by 1 h efflux ±10 μ M of verapamil, permitted an increased reproducibility of the technique from 71 to 100% for K562 and K562/HHT100. Whatever the technique used, concordant results were obtained for K562/HHT300. The immunocytochemistry, using several antibodies (MRK16, JSB1 and C219) gave many non-interpretable results (44%), due to a frequent high background and discordant results between antibodies in the same centers, and discordant conclusions between centers. The group does not recommend this technique for circulating tumoral cells.
Multidrug resistance can be induced in mammalian cells by selection with a single cytotoxic agent. Overproduction of the energy-dependent drug efflux pump P-glycoprotein, encoded by the mdr1 gene, has been identified as the cause of one form of multidrug resistance. The molecular basis of other forms of multidrug resistance is unknown. Doxorubicin selection of the human squamous lung cancer cell line SW-1573 resulted in multidrug-resistant sublines in which a non-P-glycoprotein-mediated form of multidrug resistance precedes mdr1 expression. Here we present a cytogenetic analysis of both non-P-glycoprotein-mediated multidrug-resistant and P-glycoprotein-mediated multidrug-resistant sublines derived from SW-1573. Three independently derived non-P-glycoprotein-mediated multidrug-resistant sublines showed a heterozygous deletion of the short arm of chromosome 2 (p23-pter), whereas alterations of chromosome 7 were present in the P-glycoprotein-mediated multidrug-resistant cell lines. In one series of clonally derived P-glycoprotein-mediated multidrug-resistant sublines, mdr1 overexpression was accompanied by various markers of chromosome 7 with breakpoints at 7q22, the mdr1 gene being known to be located at 7q21.1. Our data suggest that in SW-1573 cells acquisition of non-P-glycoprotein-mediated multidrug resistance is accompanied by a specific deletion or a translocation involving the short arm of chromosome 2, whereas in the emergence of P-glycoprotein-mediated multidrug resistance a rearrangement of the long arm of chromosome 7 is a critical event.
To evaluate the clinical value of the expression of multidrug resistance P-glycoprotein (P-170) on the surface of acute nonlymphoblastic leukemia (ANLL) cells, we analyzed specimens from 150 newly diagnosed patients for staining with MRK16, a monoclonal antibody (MoAb) that binds to an external epitope of P-170. Other surface markers (CD13, CD14, CD15, and CD34) were studied by the same technique. A marker was considered positive when 20% or more cells were stained. Of 150 samples, 71 were P-170-positive. These cases did not differ from P-170-negative cases with regard to age, sex, initial white blood cell (WBC) counts, or French-American-British (FAB) type (except for M3 ANLL, which were more frequently negative). However, leukemias arising from previous myelodysplastic syndrome (MDS) and therapy-induced leukemias were more frequently P-170-positive. CD34 and P-170 expression were significantly associated. All patients were treated by intensive chemotherapy. Complete remission (CR) rates were significantly lower in P-170-positive (23/71, 32%) than in P-170-negative cases (64/79, 81%) (P less than 10(-5)). CD34 positivity was also associated with a low remission rate (P less than 10(-5)). Survival was shorter for P-170- and CD34-positive patients (P less than 10(-5)). The prognostic value of both markers was confirmed in multivariate analysis. CR duration was also shorter for P-170-positive cases, but the difference is less significant (P = .05). It is concluded that P-170 analysis may be an important tool for predicting the outcome of intensive chemotherapy in ANLL patients.
Advances in the treatment of acute myeloid leukemia (AMD have occurred with the introduction of new therapies including high-dose cytarabine and the identification of powerful prognostic factors such as cytogenetics that predict for long-term outcome. To date, the prognostic impact of cytarabine dose escalation within various cytogenetic groups of AML has not been assessed. We describe 285 newly diagnosed patients with primary AML who had adequate karyotypes and were enrolled on a prospective Cancer and Leukemia Group B cytogenetic study. All patients were randomly assigned to postremission treatment with standard-, in termediate-, or high-dose cytarabine intensification. Patients were catego rized to one of three cytogenetic groups: (a) core binding factor type ((CBF); i.e., t(8;21) inv(16), t(16;16), and del(16)); (¿>) normal; and (c) other abnormality karyotype. An evaluation of these patients after a median follow-up time of over 7 years was performed to determine the relationship of intensification to outcome by cytogenetic group. Patients included 57 patients with CBF AML, 140 patients with normal karyotype AML, and 88 patients with other cytogenetic abnormalities. The treat ment outcome of CBF AML patients was superior, with an estimated 50% still in complete remission (CR) after 5 years as compared with 32 and 15% for patients with normal karyotype AML and other abnormality AML, respectively (P < 0.001). Univariate analysis showed the following nonkaryotype factors to predict a prolonged CR duration: (a) younger age (P < 0.008); (b) lower leukocyte count (P = 0.01); (c) the presence of Auer rods (P = 0.004); «/) a lower percentage of bone marrow blasts (/' = 0.001) at the time of diagnosis, (e) and a higher postremission cytarabine dose (P < 0.001). The impact of cytarabine dose on long-term remission was most marked (/' < 0.001) in the CBF AML group (after 5 years, 78% of those with a dose of 3 g/m2 were still in CR, 57% of those with a dose of 400 mg/m2 were still in CR, and 16% of those with a dose of 100 mg/m2 were still in CR) followed by normal karyotype AML (P = 0.01; after 5 years, 40% of those with a dose of 3 g/m2 were still in CR, 37% of those with a dose of 400 mg/m2 were still in CR, and 20% of those with a dose of 100 mg/m2 were still in CR). In contrast, cytarabine at all doses produced only a 21% or less chance of long-term continuous CR for patients with other cytogenetic abnormalities. A multivariate analysis of CR duration assessed the independent impact of each of these variables on cure. Significant factors entering this model in descending
Multidrug resistance in several human cell lines correlates with amplification or increased expression of two related DNA sequences, designated mdr1 and mdr2. These DNA sequences were used as probes for hybridization with DNA with a panel of human-mouse somatic cell hybrids and from individual human chromosomes separated by fluorescence-activated chromosome sorting. By these assays, both mdr1 and mdr2 sequences were localized to chromosome 7.
Tumor cell resistance to doxorubicin (DOX) is usually associated with the overexpression of P-glycoprotein (PGP) in model systems. We have characterized the karyotypic changes in two sublines of HL-60 cells which differ in the induction of differentiation by retinoic acid. The parental sublines, designated HL-60A/S and HL-60Y/S, were selected in increasing concentrations of 0.025-0.1 micrograms/mL DOX. Monosomy 8 in HL-60Y/S was the only karyotypic difference prior to DOX exposure. Both sublines acquired 7q+ markers upon exposure to DOX. In HL-60Y/S, and add(7)(q21) replaced one homologue at 0.025 micrograms/mL DOX, and an add(7)(q32) appeared which replaced the other normal 7 at 0.05 micrograms/mL DOX. The HL-60A/S cells acquired an add(7)(q21) at 0.025 micrograms/mL DOX. The 7q+ abnormalities involved breakpoints in the midregion of 7q. The overexpression of phosphorylated PGP in immunoprecipitates with C-219 antibody was identified in both sublines of DOX-resistant HL-60 cells with 7q+ abnormalities, and this is consistent with the location of mdr-1 sequences to 7q21-21.1. Also, analysis of RNA from parental-sensitive and DOX-resistant sublines by reverse transcriptase-polymerase chain reaction revealed: a) comparable expression of multidrug resistance related protein (MPR) in sensitive and resistant sublines; and b) overexpression of mdr-1 only in the DOX-resistant sublines. Thus, the selection of DOX resistance in two sublines of HL-60 cells which differ in their response to retinoic acid-induced myeloid differentiation is reproducibly associated with overexpression of mdr-1 versus MRP.
Despite more effective treatment for younger patients with acute myeloid leukemia (AML), resistance to conventional antineoplastics has limited such advances in the elderly. Overexpression of the multidrug transporter, P-glycoprotein (Pgp), appears to contribute to treatment failure in de novo AML and has been detected in up to 70 percent of elderly patients. Data also indicate linkage between Pgp and many adverse prognostic features, including cytogenetic pattern, surface phenotype, and evolution from an antecedent hematologic disorder. Pharmacologic inhibitors of Pgp function have been targeted for investigation in elderly AML patients. Non-Pgp mechanisms responsible for multidrug resistance (MDR) phenotypes that are only weakly sensitive to classic Pgp modulators, however, may limit the success of such strategies. Overexpression of the lung-resistance protein (LRP) in AML has also been linked to advanced age, secondary leukemia, and Pgp overexpression. In a study of 66 patients at the Arizona Cancer Center, LRP overexpression was a more important predictor of response to induction therapy for AML than was Pgp. Recent investigations indicate that overexpression of the gene encoding the MDR-related protein (MRP), though rare in de novo AML, may be common in high-risk groups such as relapsed patients and secondary AML. Use of monoclonal antibodies specific for the MRP gene product may further define its prognostic relevance in AML.
Clinical and biological features have recognized prognostic significance in acute myeloid leukemia (AML). To evaluate the interaction of these variables and weighted effect on treatment outcome, prognostic variables from 96 previously untreated patients were analyzed for association with expression of the MDR1 gene product P-glycoprotein (Pgp), and effect on response to induction chemotherapy, progression-free survival and overall survival. Multivariate relationships were analyzed using six prognostic variables, including age, cytogenetic pattern, gender, CD34+ surface phenotype, AML type (de novo versus secondary) and Pgp. Univariate comparisons indicate that Pgp (P = 0.0001), cytogenetic pattern (P = 0.0004) and a Cd34+ phenotype (P = 0.0005) are predictive of primary treatment failure, whereas Pgp (P = 0.0001) had the greatest predictive value in multivariate analysis. Only cytogenetic pattern retained prognostic significance (P = 0.0143) for response to induction therapy after adjustment for Pgp. Although all variable except gender were associated with Pgp, specimens harboring the favorable karyotypic abnormalities t(15;17), t(8;21) and inv(16) exclusively lacked Pgp expression. In a multivariate model, both Pgp and cytogenetic pattern predicted response and overall survival, whereas secondary AML and cytogenetic pattern influenced remission duration. These findings indicate that cytogenetic has prognostic relevance that is independent of Pgp, and implies the presence of undefined biological mechanisms affecting chemotherapy resistance.
For investigation of relative differences in mRNA expression levels and of correlations in the expression of genes possibly involved in multidrug resistance (MDR) of acute myelogenous leukemias (AML), a complementary DNA polymerase chain reaction (cDNA-PCR) analysis was established for the genes encoding MDR1/P-glycoprotein, the multidrug resistance-associated protein (MRP), topoisomerase II alpha, topoisomerase II beta, topoisomerase I, glutathione S-transferase pi, protein kinase C (PKC) isozymes alpha, beta 1, beta 2, epsilon, eta, theta and cyclin A. In a first descriptive study comprising samples of childhood or adult AML we calculated the mean values from primary (n=14) or relapsed (n=23) states of the diseases, respectively. We found in the latter significant increases of MDR1, MRP, gst pi, and PKC theta gene expression. MDR1 and MRP gene expression levels were generally correlated (rs= +0.4128, P<0.02, n=37), as well as topoisomerase II alpha and cyclin A gene expression levels (rs= +0.8727, P<0.0001, n=35). Within the group of relapsed state AML a significant negative correlation between the gene expression levels of MDR1 and topoisomerase II alpha (rs= -0.5500, P<0.01, n=22) was observed. Remarkably, highly significant positive correlations were found for MDR1/PKC eta (rs= +0.5560, P<0.001, n=32), MRP/PKC theta (rs= +0.6573, P<0.0001, n=34) and MRP/PKC eta (rs= +0.5241, P<0.005, n=32).
Cellular expression of the multidrug transporter, P-glycoprotein (Pgp) is recognized as a biological mechanism possibly contributing to treatment failure in acute myeloid leukemia (AML). Correlative studies indicate its association with poor risk features including secondary AML, CD34+ surface phenotype, unfavorable karyotype and advanced age. Reported disparity in the prognostic impact of Pgp relates in part to variance in drug transport capacity. In Pgp expressing cells, capacity for drug extrusion is governed by maturation phenotype and is largely restricted to CD34+ populations lacking myeloid maturation antigens. Three competitive inhibitors of Pgp function showing promise in pilot studies, cyclosporin A (CsA), quinine and the cyclosporin D analogue PSC 833, have entered testing in phase III trials. The presence of non-Pgp-related mechanisms of multidrug resistance, relatively insensitive to Pgp modulators, may limit the success of such treatment strategies. Preliminary investigations indicate that overexpression of the gene encoding the multidrug resistance-related protein (MRP) occurs infrequently in de novo AML, but relative increases in gene message are evident in relapsed specimens. Overexpression of lung resistance protein (LRP) is associated with adverse prognostic variables such as age, secondary disease and Pgp, and has demonstrated prognostic relevance. Because treatment with Pgp modulators may select for this drug resistance phenotype, LRP merits evaluation in randomized trials of Pgp antagonists. These observations indicate that multiple biological mechanisms contribute to anthracycline resistance in AML, thereby warranting development of multifunctional modulators or chemotherapeutic agents with novel mechanisms of action.