Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Overexpression of the human multidrug resistance gene (MDR1) on acute myelogenous leukemia (AML) correlates with poor prognosis. We evaluated several methods for mRNA estimation to standardize simple and reliable techniques for identifying MDR1 positive leukemia among untreated AMLs in large scale studies. Northern blot detection of MDR1 mRNA suffered from low signal-to-noise ratio under the conventional conditions, that was improved mainly by removing unincorporated radioactivity. The amount of MDR1 transcripts on positive cells was estimated less than 10% of that of constitutive mRNA species. A modified method seemed useful in estimating the total amount of the MDR1 mRNA in a whole leukemic cell population, and suitable to study stock samples or for large prospective clinical trials. RT-PCR was more sensitive in detecting MDR1 mRNA than Northern blot analysis, and the very feature made it virtually impossible to exclude contamination with normal hematopoietic cells. This procedure showed that FAB M3 leukemias were essentially MDR1 negative, and there existed frequently myelodysplastic syndrome subpopulation which had excessive MDR1 transcripts. In situ hybridization of the mRNA with a FITC-labeled phosphorothioate oligonucleotide probe was visualized using flowcytometry or con-focus lightmicroscopy, enabled us to recognize the difference between multidrug resistant K562/ADM and its wild type.
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PMID:Methods for detection of MDR1 mRNA expression on acute myelogenous leukemia cells. 796 78

A retrospective analysis was performed on 235 elderly acute myelogenous leukaemia (AML) patients aged 60 years or more, consecutively admitted to a single haematological department during a 10-year period from 1980 to 1989. 46% of patients received only conventional induction chemotherapy. The rate of inclusion in EORTC cooperative clinical trials was significantly lower than for younger patients despite specific protocols proposed for the elderly since 1983, thus confirming the important selection bias of most published series on elderly AML patients. Compared with treatment results in patients < 60 years, complete remission (CR) rate was lower (33.3% v 65.4%, P < 0.0001), with a marked drop in patients older than 70, and induction death rate was higher (21.3% v 12.5%, P = 0.04). Intrinsic characteristics of leukaemic cells, especially expression of the MDR1 gene, in vitro growth of the leukaemic clonogenic cells and sensitivity to daunorubicin-(+)cytosine arabinoside, did not differ according to age, except that there was a higher incidence of previous myelodysplastic syndromes and a lower incidence of good prognostic cytogenetics in the elderly patients. Thus, treatment failure in elderly AML patients appears to be mainly due to host-related factors (especially performance status and age < or > or = 70 years), and to inadequate treatments. Some elderly patients may have been undertreated because of the planned anthracycline dose reduction, resulting in a higher rate of 'resistant' AML, i.e. patients surviving the induction period without entering into CR, than in younger patients (45.4% v 22.1%, P < 0.0001). 11 patients (4.7%) with untreated or 'resistant' AML survived more than 1 year, while receiving only supportive care. These slowly progressive AML patients were characterized by a good performance status, and lower circulating blast cells and bone marrow blast counts.
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PMID:Acute myelogenous leukaemia in the elderly: retrospective study of 235 consecutive patients. 801 51

Homoharringtonine (HHT) is a cytotoxic alkaloid isolated from the evergreen tree cephalotaxus harringtonia native to the southern provinces of China. The principal mechanism of action of HHT is the inhibition of protein synthesis in a dose- and time-dependent manner by acting on the ribosomes of cancer cells. It blocks the progression of cells from G1 phase into S phase and from G2 phase into M phase. It is synergestic or additive in vitro with AraC, amsacrine, actinomycin D and dexamethasone. Clinical studies have indicated that HHT is effective in treating acute myeloid leukemia (AML), chronic myeloid leukemia (CML) and myelodysplastic syndrome (MDS), but not acute lymphoblastic leukemia (ALL) and solid tumors. The dose limiting toxicities are hypotention and myelosuppression. Homoharringtonine has relatively mild extramedullary toxicities and no anthracycline-like cardiac toxicity, which make it a suitable candidate for the treatment of aged patients. Pharmacological studies indicate that HHT belongs to the category of multidrug resistance (MDR)-related drugs. The cells resistant to HHT are cross-resistant to anthracycline, vinca alkaloids, mitoxantrone, but not cis-platine and AraC. Multiple mechanisms, including the sequential emergence of overexpression of multidrug resistance-associated protein (MRP) and MDR1 genes, are involved in the cross-resistance of tumor cells to HHT.
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PMID:Homoharringtonine: an effective new natural product in cancer chemotherapy. 874 64

The in vitro growth characteristics of a large series of acute myeloid leukaemia (AML) patients and their relationship with other clinical and biological disease characteristics were analysed. Patients with AML were studied, 181 with de novo AML and 45 with secondary AML (24 myelodysplastic syndrome, sAML-MDS, 21 myeloproliferative disorder, sAML-MPD). Leukaemic colony forming units (L-CFU) were assayed by plating peripheral blood (PB) blast cells in methyl-cellulose and using LCM-PHA as stimulant. In each case parallel cultures were made with and without stimulating factors. Plating efficiency (PE) was defined as the number of clusters plus colonies/10(5) cells plated. Autonomous growth (AG) was the number of colonies plus clusters growing without stimulant. The autonomous proliferative index (API) was calculated as the number of clusters + colonies without stimulating factor divided by the number of clusters + colonies with stimulating factor. No significant differences in the PE between de novo and secondary AML were found. Autonomous growth was significantly higher in sAML-MPD. The FAB subtype M3 leukaemias displayed a significantly greater PE and a significantly lower API when compared with the other FAB subgroups (P=0.0002). Upon analysing the relationship with the immunophenotype, only CD33 expression showed a significant relationship with the in vitro growth pattern; CD33+ cases displayed a higher PE (P=0.0002) and AG (P=0.0003) than CD33- cases. When patients were grouped according to the level of rh123 efflux (MDR1) it was observed that cases with >30% elimination showed a higher AG and API than those with <30% (P=0.03). Finally we found that patients with higher API (>0.05) displayed a significantly shorter overall survival as compared with patients with API<0.05 (P=0.04). The in vitro study properties of clonogenic cells produces relevant clinical information of leukaemic cell biology in AML patients.
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PMID:In vitro growth in acute myeloblastic leukaemia: relationship with other clinico-biological characteristics of the disease. 979

P-glycoprotein (P-gp) is often expressed (40-50%) on leukemic cells at diagnosis in acute myelogenous leukemia (AML), and is even more frequently present after treatment failure. Several large cohorts of newly diagnosed AML patients treated with a classical anthracycline + standard doses of cytosine arabinoside were tested for the prognosis value of MDR1 phenotype, and demonstrated an high correlation between a significant increase of MDR1 gene expression and treatment failure (or, better, drug resistance). This P-gp(+) drug resistance could be due either to a particular phenotype of bad prognosis AML, as it is suggested by the association of myelodysplasia, complex karyotype and advanced age with MDR1 phenotype, or due primarily to the active efflux of anthracyclines and VP16 in P-gp(+) leukemic cells. Several observations tend to confirm the functional role of the P-gp in clinical drug resistance; (i) using multivariate analysis, MDR1 phenotype appears to be an independent variable, as potent (or higher) as karyotype and age for predicting in vivo drug resistance; (ii) the prognostic value is limited to the CD34(+)/P-gp(+) phenotype, wich is linked to a functional P-gp; (iii) the in vitro sensitivity to anthracyclines and VP16 is highly correlated with P-gp expression. All these data argue for an early use of P-gp modifier agents in the treatment of AML. The role of the MDR1 gene in ALL resistance is controversial and marginal compared to the sensitivity of ALL blasts to glucocorticoids, and the frequency of MDR1 phenotype is low at diagnosis, and is increasing only after repetitive chemotherapies.
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PMID:MDR1/P-GP expression as a prognostic factor in acute leukemias. 1050 Jul 74

We have analyzed MDR1 gene expression in 69 clinical samples obtained from 64 patients with leukemic hematologic malignancies by using a competitive reverse transcription-polymerase chain reaction assay with a heterologous competitor RNA. To exclude a false-positive result caused by concomitant normal lymphocytes that physiologically express MDR1, in samples we determined a cut-off value of 8 amol MDR1 transcript per microgram of RNA by simultaneous measurement of rhodamine 123 dye efflux either in lymphocyte or gated leukemic cell populations. Consequently, 23 of 69 samples were concluded to be MDR1-positive in leukemic cells per se. The MDR1 expression rate was significantly correlated with factors such as a history of preceding chemotherapy, elder age of the patient, and certain disease types (eg, leukemia progressed from myelodysplastic syndrome). Moreover, the complete response rate after chemotherapy was significantly higher in MDR1-negative patients than in MDR1-positive patients (52% vs 17%, respectively; P = .01). The assay established will enable the quantification of MDR1 gene expression in blood samples from patients with leukemic hematologic malignancies and will be applicable to clinical laboratories as a routine test.
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PMID:Competitive reverse transcription-polymerase chain reaction assay for quantification of human multidrug resistance 1 (MDR1) gene expression in fresh leukemic cells. 1069 66

Resistance to chemotherapy is an obstacle to the successful treatment of acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). The failure of therapeutic treatment may be due to the development of multidrug resistance (MDR), mechanisms of which include upregulation of membrane-resident transporters which efflux chemotherapeutic drugs from tumor cells, and failure of the cancer cell to undergo apoptosis in response to chemotherapy. Membrane transporter-based drug efflux transporters have been extensively studied, and agents that block drug efflux have been found and investigated. Presence of P-glycoprotein (Pgp, MDR1, ABCB1), a member of the ATP-binding cassette (ABC) transporter family, has been reported to correlate with poor prognosis in AML and MDS. In MDS, Pgp expression increases as the disease progresses. Overexpression of other transporters, such as the multidrug resistance protein (MRP1, ABCC1), and the vault-associated transporter lung resistance protein have been shown as well in both MDS and AML, but their prognostic relevance is not clear. Recently, a novel ABC half-transporter, the breast cancer resistance protein (ABCG2) has been found in approximately 30% of AML cases, and may play a role in resistance to chemotherapy. In clinical trials in MDS, first-generation Pgp blockers, such as cyclosporin-A and verapamil, were minimally effective, non-specific, and toxic. However, another first-generation blocker, quinine, was used in MDS and may specifically benefit MDS patients overexpressing Pgp. A second-generation drug, the non-immunosuppressive cyclosporine analog valspodar (PSC833), was studied in AML and MDS, and was highly toxic, resulting in the need to reduce the dosage of the chemotherapeutic drugs as a result of valspodar reducing the clearance of the chemotherapeutic agents. Third-generation drugs, which are highly specific for Pgp and which seem to have only modest effects on drug clearance, include tariquidar, zosuquidar, laniquidar, and ONT-093. These are all in phase I/II trials and show promise for future treatment.
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PMID:Modulation of drug resistance transporters as a strategy for treating myelodysplastic syndrome. 1549

Therapy-related leukemia or myelodysplasia (t-leuk/MDS) is a serious problem that is increasing in frequency. We studied the clinical characteristics of 96 patients (pts) with a mean age of 48 years, and analyzed the molecular parameters that could predispose to t-leuk/MDS. Hematological malignancies were the most common primary (53%), followed by breast and ovarian cancer (30% combined). The mean latency until the development of t-AML was 45.5 months. Median survival was 10 months. Cytogenetics was abnormal in 89% of pts. FLT3 internal tandem duplications were found in six of 41 (14.6%) pts, of whom four had an abnormal karyotype. Analysis of drug metabolism and disposition genes showed a protective effect of the CYP3A4 1*B genotype against the development of t-leuk/MDS, whereas the CC genotype of MDR1 C3435T and the NAD(P)H:quinone oxidoreductase1 codon 187 polymorphism were both noncontributory. Microsatellite instability (MSI) analysis using fluoresceinated PCR with ABI sequence analyzer demonstrated that 41% of pts had high levels of MSI in four or more of 10 microsatellite loci. Immunohistochemistry demonstrated reduced expression of MSH2 and MLH1 in 6/10 pts with MSI as compared to 0/5 of pts without MSI. In conclusion, genetic predisposition as well as epigenetic events contribute to the etiology of t-AML/MDS.
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PMID:Therapy-related leukemia: clinical characteristics and analysis of new molecular risk factors in 96 adult patients. 1616 58

It is well-known that leukemic cells of overt leukemia (OL) that have transformed from myelodysplastic syndromes (MDS) are more resistant to chemotherapy as compared with de novo AML cells. Thus, to examine the expression levels of drug-resistant genes and their alterations with the development of OL in MDS, the expression of mRNA for MDR1 and LRP was determined in bone marrow samples from control, de novo AML, MDS, MDS at the time of OL transformation (MDS --> OL), and after transformation (OL) by quantitative real-time RT-PCR. The expression of MDR1 in MDS bone marrow at the time of initial diagnosis was as low as that for control subjects. However, the expression level was significantly elevated at the time of the development of OL (MDS --> OL) compared with the initial MDS subjects (P < 0.05), while expression was relatively reduced after OL development (OL). The expression of LRP was significantly higher in MDS and MDS --> OL samples than control subjects. However, the high expression of LRP in MDS --> OL was significantly reduced after OL development (OL). The expression levels of drug-resistant genes in MDS --> OL or OL were not significantly higher than those of de novo AML samples, although LRP expression in MDS or MDS --> OL was relatively higher than that of de novo AML. Detecting increases in the expression of MDR1 would be useful for predicting OL development in MDS patients.
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PMID:Expression dynamics of drug resistance genes, multidrug resistance 1 (MDR1) and lung resistance protein (LRP) during the evolution of overt leukemia in myelodysplastic syndromes. 1656 20


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