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)

Using human acute leukemia HL-60/Bcr-Abl (with ectopic expression of p185 Bcr-Abl) and K562 cells (with endogenous expression of p210 Bcr-Abl) subjected to a continuous selection pressure of up to 1.0 micro M Gleevec (imatinib mesylate, STI-571), we have isolated Gleevec-resistant K562 R (+Bcr-Abl), K562 R (-Bcr-Abl), and HL-60/Bcr-Abl R cells, which display disparate level and activity of Bcr-Abl tyrosine kinase (TK). As compared with their sensitive counterparts, Gleevec-resistant cell types were >/=5-fold resistant to Gleevec-induced apoptosis. Bcr-Abl protein levels were significantly increased in HL-60/Bcr-Abl R and K562 R (+Bcr-Abl) cells, but K562 R (-Bcr-Abl) cells showed a marked decline in the mRNA and protein levels and activity of Bcr-Abl. Bcr-Abl TK level and activity corresponded to the signal transducers and activators of transcription-5 DNA binding activity and up-regulation of heat shock protein 70 levels. The decline in Bcr-Abl expression and TK activity in K562 R (-Bcr-Abl) cells was associated with reduced AKT kinase and signal transducers and activators of transcription-5 DNA binding activities and increased sensitivity to the death ligand Apo-2 ligand/tumor necrosis factor-related apoptosis-inducing ligand and 1-beta-D-arabinofuranosylcytosine-induced apoptosis. All Gleevec-resistant cell types were sensitive to 17-allylamino-17-demethoxygeldanamycin (17-AAG)- and PD180970 (a SRC and Bcr-Abl TK inhibitor)-induced apoptosis. Treatment with 17-AAG or PD180970 also induced apoptosis of CD34+ leukemic cells from three patients with chronic myeloid leukemia in blast crisis who had progressive leukemia while receiving Gleevec therapy. Taken together, these findings indicate that in addition to overexpression or mutations in Bcr-Abl, resistance to Gleevec may also develop due to a loss of Bcr-Abl expression. These findings also support the rationale to test the in vivo efficacy of 17-AAG and PD180970 against STI-571-resistant Bcr-Abl-positive acute leukemias.
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PMID:Molecular characterization and sensitivity of STI-571 (imatinib mesylate, Gleevec)-resistant, Bcr-Abl-positive, human acute leukemia cells to SRC kinase inhibitor PD180970 and 17-allylamino-17-demethoxygeldanamycin. 1238 36

Selective inhibition of the BCR-ABL tyrosine kinase by imatinib (STI571, Glivec/Gleevec) is a promising new therapeutic strategy in patients with chronic myelogenous leukemia (CML). Despite significant hematologic and cytogenetic responses, resistance occurs, particularly in patients with advanced disease. We sought to determine the underlying mechanisms. Sixty-six patients with CML in myeloid blast crisis (n = 33), lymphoid blast crisis (n = 2), accelerated phase (n = 16), chronic phase (n = 13), and BCR-ABL-positive acute lymphoblastic leukemia (n = 2) resistant to imatinib were investigated. Median duration of imatinib therapy was 148 days (range 6-882). Patients were evaluated for genomic amplification of BCR-ABL, overexpression of BCR-ABL transcripts, clonal karyotypic evolution, and mutations of the imatinib binding site in the BCR-ABL tyrosine kinase domain. Results were as follows: (1) Median levels of BCR-ABL transcripts, were not significantly changed at the time of resistance but 7/55 patients showed a >10-fold increase in BCR-ABL levels; (2) genomic amplification of BCR-ABL was found in 2/32 patients evaluated by fluorescence in situ hybridization; (3) additional chromosomal aberrations were observed in 19/36 patients; (4) point mutations of the ABL tyrosine kinase domain resulting in reactivation of the BCR-ABL tyrosine kinase were detected in 23/66 patients. In conclusion, although the heterogeneous development of imatinib resistance is challenging, the fact that BCR-ABL is active in many resistant patients suggests that the chimeric oncoprotein remains a good therapeutic target. However, patients with clonal evolution are more likely to have BCR-ABL-independent mechanisms of resistance. The observations warrant trials combining imatinib with other agents.
Leukemia 2002 Nov
PMID:Molecular and chromosomal mechanisms of resistance to imatinib (STI571) therapy. 1239 61

The choice of primary treatment for patients with chronic myeloid leukaemia diagnosed in chronic phase has become exceedingly difficult. There is little doubt that allogeneic stem cell transplantation (allo-SCT) can eradicate the leukaemia and that a 'graft-versus-leukaemia' effect makes a major contribution to this result; conversely only a minority of patients are eligible for transplant, which still carries an appreciable risk of mortality or protracted morbidity. For the majority of patients interferon-alpha prolongs life to some degree in comparison with hydroxyurea but is associated with considerable toxicity. The newly introduced tyrosine kinase inhibitor imatinib mesylate (imatinib, Glivec) induces complete haematologic remission in almost all cases and is associated with a very high incidence of cytogenetic response; its capacity to prolong life in comparison with interferon-alpha is not yet established. Here we review some factors that predict survival after non-transplant therapy and after allografting for CML in chronic phase. We consider two contrasting options for managing the newly diagnosed patient and conclude that for the present allogeneic stem cell transplantation soon after diagnosis should continue to be offered as an option for selected patients. Further experience with the use of imatinib as a single agent or in combination with other anti-leukemic agents may alter the picture in the near future.
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PMID:Treatment of chronic myeloid leukaemia: lessons and challenges. 1243 Sep 24

Here we demonstrate that treatment with SAHA (suberoylanilide hydroxamic acid), a known inhibitor of histone deacetylases (HDACs), alone induced p21 and/or p27 expressions but decreased the mRNA and protein levels of Bcr-Abl, which was associated with apoptosis of Bcr-Abl-expressing K562 and LAMA-84 cells. Cotreatment with SAHA and imatinib (Gleevec) caused more down-regulation of the levels and auto-tyrosine phosphorylation of Bcr-Abl and apoptosis of these cell types, as compared with treatment with either agent alone (P <.05). This finding was also associated with a greater decline in the levels of phospho-AKT and Bcl-x(L). Significantly, treatment with SAHA also down-regulated Bcr-Abl levels and induced apoptosis of CD34(+) leukemia blast progenitor cells derived from patients who had developed progressive blast crisis (BC) of chronic myelocytic leukemia (CML) while receiving therapy with imatinib. Taken together, these findings indicate that cotreatment with SAHA enhances the cytotoxic effects of imatinib and may have activity against imatinib-refractory CML-BC.
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PMID:Cotreatment with the histone deacetylase inhibitor suberoylanilide hydroxamic acid (SAHA) enhances imatinib-induced apoptosis of Bcr-Abl-positive human acute leukemia cells. 1244 42

Imatinib mesylate (STI571, Glivec, Gleevec) is a powerful inhibitor of the tyrosine kinase activity of Bcr-Abl, the oncoprotein responsible for chronic myeloid leukemia (CML). The drug shows great efficacy in chronic phase, but is less effective in maintaining hematologic remissions in blast crisis patients. Our group has previously described several cell lines made resistant to imatinib. We now examine the question of cross-resistance to other chemotherapeutic drugs used in CML. Four paired imatinib-sensitive/resistant CML cell lines were assessed by caspase-3 and MTS assays for their proliferative response to cytosine arabinoside (Ara-C), daunorubicin (DNR), homoharringtonine (HHT) and hydroxyurea (HU), either alone or in combination with imatinib. Primary blasts from advanced-stage CML patients refractory to imatinib therapy were studied by semi-solid media clonogenic assays. We found that these drugs are generally capable of major inhibition of proliferation of the CML cell lines, although differential responses to DNR and HHT were noted between some sensitive and resistant cell line pairs, implying that resistance to imatinib may confer a growth advantage under such conditions. The four drugs were also effective in preventing the formation of progenitor cell colonies from CML patients both before treatment with imatinib, and after relapse on the drug. Isobolographic analysis implied that these drugs will generally combine well with imatinib, and in some cases will be synergistic. We conclude that Ara-C, DNR or HHT, either alone or in combination with imatinib, are likely to be the best therapeutic alternatives in the management of patients who become resistant to imatinib monotherapy.
Leukemia 2002 Dec
PMID:Drug responses of imatinib mesylate-resistant cells: synergism of imatinib with other chemotherapeutic drugs. 1245 39

We present a patient with a Philadelphia chromosome positive (Ph+) acute lymphocytic leukaemia (ALL) refractory to standard induction chemotherapy. Treatment with the ABL-specific tyrosine kinase inhibitor STI571 (Glivec, Gleevec, imatinib mesylate) resulted in a complete haematologic and cytogenetic remission. Allogeneic stem cell transplantation from an unrelated donor could be undertaken while the patient was in STI571-induced complete remission from the leukaemia. At present, the patient has a 15-month post-transplantation follow-up and is in stable molecular remission as evaluated by quantitative reverse transcriptase polymerase chain reaction (qRT-PCR) for the BCR/ABL fusion gene transcript. Our case demonstrates that STI571 can act as a bridge to potentially curative allogeneic stem cell transplant in otherwise poor prognosis Ph+ ALL.
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PMID:Favorable outcome with STI571 (imatinib mesylate) and allogeneic stem cell transplantation in a case of Ph+ chemorefractory acute lymphocytic leukaemia. 1247 93

BCR/ABL regulates cell proliferation, apoptosis, differentiation and adhesion. In addition, BCR/ABL can induce resistance to cytostatic drugs and irradiation by modulation of DNA repair mechanisms, cell cycle checkpoints and Bcl-2 protein family members. Upon DNA damage BCR/ABL not only enhances reparation of DNA lesions (e.g. homologous recombination repair), but also prolongs activation of cell cycle checkpoints (e.g. G2/M) providing more time for repair of otherwise lethal lesions. Moreover, by modification of anti-apoptotic members of the Bcl-2 family (e.g. upregulation of Bcl-x(L)) BCR/ABL provides a cytoplasmic 'umbrella' protecting mitochondria from the 'rain' of apoptotic signals coming from the damaged DNA in the nucleus, thus preventing release of cytochrome c and activation of caspases. The unrepaired and/or aberrantly repaired (but not lethal) DNA lesions resulting from spontaneous and/or drug-induced damage can accumulate in BCR/ABL-transformed cells leading to genomic instability and malignant progression of the disease. Inhibition of BCR/ABL kinase activity by STI571 (Gleevec, imatinib mesylate) reverses drug resistance and, in combination with standard chemotherapeutics can exert strong anti-leukemia effect.
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PMID:BCR/ABL regulates response to DNA damage: the role in resistance to genotoxic treatment and in genomic instability. 1247 6

Acute myeloid leukemia (AML) remains the most common form of leukemia and the most common cause of leukemia death. Although conventional chemotherapy can cure between 25 and 45% of AML patients, most patients will either die of relapse or die from the complications associated with treatment. Thus, more specific and less toxic treatments for AML patients are needed. Recently, a small molecular inhibitor (STI571 or Gleevec) that targets the BCR-ABL gene was found to have a dramatic clinical effect in patients with chronic myelogenous leukemia (CML). These results have encouraged investigators to search for additional small molecular inhibitors and other targeted therapies that may be applicable to other forms of leukemia. In this review, we examine some of the signaling pathways that are aberrantly regulated in AML, focusing on the tyrosine kinase/RAS/MAP kinase and JAK/STAT pathways. After reviewing these two pathways, we explore some of the targeted therapies directed at these pathways that are under development for AML, many of which are already in clinical trials.
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PMID:Molecular targets in acute myelogenous leukemia. 1249 Feb 7

Imatinib (Glivec, formerly STI571, Novartis Pharma AG, Basel, Switzerland) potently inhibits several protein tyrosine kinases, including Bcr-Abl, Kit, and the platelet-derived growth factor receptor. Phase I and II studies demonstrated that orally administered imatinib is highly effective and well tolerated in all phases of chronic myeloid leukemia (CML) at doses ranging from 400 to 600 mg. Importantly, preliminary evidence suggests that patients with advanced CML achieving hematologic or major cytogenetic responses to imatinib may have longer survival than those without such responses, whereas chronic phase patients who respond to treatment may have longer times to disease progression. Ongoing and planned studies are focused on optimizing CML treatment with imatinib, evaluating imatinib-based combination therapy, defining additional therapeutic targets and exploring the use of imatinib in children. In particular, results from several combination phase I studies are expected shortly, including an evaluation of combination imatinib-interferon-alpha therapy and imatinib-cytarabine in chronic phase CML, and a phase I study of single-agent imatinib in children with Philadelphia chromosome-positive leukemia is ongoing. A large phase III trial comparing imatinib with standard inferferon alfa plus cytarabine in first-line CML treatment is also ongoing.
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PMID:Imatinib: the first 3 years. 1252 77

Until recently, progress in the treatment of patients with Ph(+) acute lymphoblastic leukaemia (ALL) has been limited, and long-term survival, even with high-dose intensified chemotherapy, is rare. Allogeneic stem cell transplantation is potentially curative, but treatment-related mortality and rate of disease recurrence are substantial. With the advent of the ABL-selective tyrosine kinase inhibitor STI571 (imatinib mesylate, Glivec), it has become apparent that the understanding of crucial leukaemogenic pathways at the molecular level can lead to the development of specific and selective agents. In recent clinical trials, imatinib has demonstrated significant anti-leukaemic efficacy in patients with advanced Ph(+) ALL, in conjunction with a remarkably favourable safety profile. Clinical resistance to imatinib develops rapidly, highlighting the limitations of using imatinib as a single agent; however, the value of imatinib as an element of treatment has become apparent. Resistance mechanisms have already been identified that will enable the development of rational strategies to prevent or overcome resistance. On the basis of available clinical results, combinations of imatinib with established anti-leukaemic agents, as well as with novel, molecularly targeted treatment modalities, will need to be evaluated in advanced Ph(+) ALL. Incorporation of imatinib in the first-line treatment of de novo Ph(+) ALL and in the setting of minimal residual disease is a promising therapeutic approach which is currently being studied in clinical trials. Better understanding of targeted therapies, including strategies based on recruitment of host immune functions, as well as the prudent use of active chemotherapy agents, may eventually improve the outlook for patients with Ph(+) ALL.
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PMID:Imatinib in the treatment of Philadelphia chromosome-positive acute lymphoblastic leukaemia: current status and evolving concepts. 1261 75


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