Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Among novel promising approaches to anticancer therapy belongs the targeting inhibition of signal transduction. This review outlines present-day experiences with imatinib (Glivec), a potent inhibitor of the tyrosine kinases bcr-abl, c-kit and platelet-derived growth factor receptor kinase. Due to inhibition of bcr-abl tyroxine kinase, imatinib has rapidly become the standard therapy for chronic myelocytic leukemia; inhibition of c-kit receptor explains its effectivity in the treatment of patients with gastrointestinal stromal tumors. Another known target of imatinib is tyrosine kinase of PDGFR, which is activated in numerous malignancies, particularly in dermatofibrosarcoma protuberans. Discovery of the novel fusion gene in hypereosinophilic syndrome (FIPILI-PFGFRA, whose product is an imatinib sensitive protein kinase) permitted to treat successfully this event. Possible combination of imatinib with conventional chemotherapeutic drugs and other key signal transduction inhibitors are mentioned.
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PMID:[Imatinib--a new perspective in the treatment of tumors]. 1553 94

Imatinib mesylate represents the first of a new generation of molecularly targeted therapies engineered to disrupt signal transduction pathways. It is a tyrosine kinase inhibitor with relatively selective activity against the Abelson (ABL) proto-oncogene, platelet-derived growth factor receptor, and c-KIT receptor. Deregulated tyrosine kinase activity has been implicated as a central pathogenic event in a number of human malignancies, most notably chronic myeloid leukemia. In this myeloproliferative disorder the t(9;22) reciprocal translocation results in the generation of a novel fusion oncoprotein, BCR-ABL, with constitutive tyrosine kinase activity. Imatinib inhibits this activity, inducing remarkable rates of hematological and cytogenetic remission in excess of those seen with alternative medical therapies. Following a large phase III study comparing its efficacy with the combination of interferon alpha and low-dose cytarabine, it has emerged as the current gold standard therapy for patients with chronic-phase disease without a potential bone marrow donor and those considered unsuitable for bone marrow transplantation. Its integration into the management of those patients who might be considered for transplantation, which has historically been considered the only potentially curative approach, remains a major challenge. The increasing recognition and subsequent molecular characterization of resistance mechanisms has reinforced the need to exercise caution against deferring a proven curative therapy in favor of a treatment approach that is still investigational, with the spectre of increased numbers of patients progressing to sudden-onset blast crisis remaining the potential dark cloud in the silver lining for imatinib.
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PMID:Imatinib mesylate--gold standards and silver linings. 1559 80

Imatinib is a tyrosine kinase inhibitor that has been reported to specifically inhibit the growth of bcr-abl expressing chronic myeloid leukaemia progenitors. This drug functions by blocking the ATP-binding site of the kinase domain of bcr-abl, and has also been found to inhibit the c-abl, platelet-derived growth factor receptor, ARG and stem cell factor receptor tyrosine kinases. Reports have recently emerged demonstrating that imatinib also inhibits the growth of non-malignant haemopoietic cells. Here, we demonstrate that concentrations of imatinib within the therapeutic dose range inhibit the function of cultured monocytes (CM) from normal donors. A decrease in the response of CM to LPS was observed morphologically and functionally, with CM grown in the presence of imatinib showing decreased pseudopodia formation and inhibition of IL-6 and TNF-alpha production following LPS stimulation. Imatinib also reduced the ability of M-CSF and GM-CSF stimulated CM to phagocytose zymosan particles, with uptake of non-opsonized zymosan by M-CSF stimulated CM (M-CM) being most affected. M-CM that had been cultured in the presence of imatinib were also impaired in their ability to stimulate responder cells in a mixed lymphocyte reaction. These results demonstrate that human monocytes cultured in the presence of imatinib are functionally impaired, and suggest that imatinib displays inhibitory activity against other kinase(s) that play a role in monocyte/macrophage development.
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PMID:Imatinib inhibits the functional capacity of cultured human monocytes. 1566 Oct 41

Imatinib mesylate is a potent and specific tyrosine kinase inhibitor against c-ABL, BCR-ABL, and c-KIT, and has been demonstrated to be highly active in chronic myeloid leukemia and gastrointestinal stromal tumors. We examined the antifibrotic effects of imatinib using a bleomycin-induced lung fibrosis model in mice because imatinib also inhibits tyrosine kinase of platelet-derived growth factor receptors (PDGFRs). Imatinib inhibited the growth of primary murine lung fibroblasts and the autophosphorylation of PDGFR-beta induced by PDGF. Administration of imatinib significantly prevented bleomycin-induced pulmonary fibrosis in mice, partly by reducing the number of mesenchymal cells incorporating bromodeoxyuridine. Analysis of bronchoalveolar lavage cells demonstrated that imatinib did not suppress early inflammation on Days 7 and 14 caused by bleomycin. These results suggest that imatinib has the potential to prevent pulmonary fibrosis by inhibiting the proliferation of mesenchymal cells, and that imatinib might be useful for the treatment of pulmonary fibrosis in humans.
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PMID:Imatinib as a novel antifibrotic agent in bleomycin-induced pulmonary fibrosis in mice. 1573 62

Imatinib mesylate is a novel anti-tumor agent useful in the clinical management of chronic myelogenous leukemia and gastrointestinal stromal tumors with minimal toxicity relative to other forms of cancer therapy. Its clinical activity and minimal toxicity are related to specific inhibition of cellular targets including BCR-ABL, platelet-derived growth factor receptor and c-kit kinases, resulting in the collapse of downstream signaling cascades important for transformation. In some patients, unexpected toxicities arise that are not associated with inhibition of any known cellular imatinib target. In this report, we investigated the effects of imatinib on squamous carcinoma cell signaling. Imatinib induced expression of COX-2 in a dose-dependent manner with concomitant accumulation of prostaglandin E2. COX-2 induction by imatinib was initiated through epidermal growth factor (EGF) receptor kinase activation and downstream signaling through mitogenic-activated protein kinase. COX-2 induction by imatinib was blocked by MEK1 or EGF receptor inhibition. Imatinib did not activate stressor cytokine-signaling pathways (p38 kinase, nuclear factor-kB nuclear translocation) or affect COX-1 expression. Imatinib failed to activate EGF receptor signals in other tumor types, suggesting that COX-2 induction in imatinib-treated cells is mediated through release of autocrine factors expressed or activated in squamous tumors. COX-2 induction by imatinib in squamous tumors derived from the head and neck region is unique with respect to other target-specific agents and may represent one of the unintended toxic effects of imatinib described in some patients.
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PMID:Cyclooxygenase-2 induction and prostaglandin E2 accumulation in squamous cell carcinoma as a consequence of epidermal growth factor receptor activation by imatinib mesylate. 1584 61

Imatinib mesylate (IM) is a tyrosine kinase inhibitor, which inhibits phosphorylation of downstream proteins involved in BCR-ABL signal transduction. It has proved beneficial in treating patients with chronic myeloid leukaemia (CML). In addition, IM demonstrates activity against malignant cells expressing c-kit and platelet-derived growth factor receptor (PDGF-R). The activity of IM in the blastic crisis of CML and against various myeloma cell lines suggests that this drug may also target other cellular components. In the light of the important role of telomerase in malignant transformation, we evaluated the effect of IM on telomerase activity (TA) and regulation in various malignant cell lines. Imatinib mesylate caused a dose-dependent inhibition of TA (up to 90% at a concentration of 15 microM IM) in c-kit-expressing SK-N-MC (Ewing sarcoma), SK-MEL-28 (melanoma), RPMI 8226 (myeloma), MCF-7 (breast cancer) and HSC 536/N (Fanconi anaemia) cells as well as in ba/F3 (murine pro-B cells), which do not express c-kit, BCR-ABL or PDGF-R. Imatinib mesylate did not affect the activity of other DNA polymerases. Inhibition of TA was associated with 50% inhibition of proliferation. The inhibition of proliferation was associated with a decrease in the S-phase of the cell cycle and an accumulation of cells in the G2/M phase. No apoptosis was observed. Inhibition of TA was caused mainly by post-translational modifications: dephosphorylation of AKT and, to a smaller extent, by early downregulation of hTERT (the catalytic subunit of the enzyme) transcription. Other steps of telomerase regulation were not affected by IM. This study demonstrates an additional cellular target of IM, not necessarily mediated via known tyrosine kinases, that causes inhibition of TA and cell proliferation.
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PMID:Imatinib mesylate (Gleevec) downregulates telomerase activity and inhibits proliferation in telomerase-expressing cell lines. 1587 Jul 11

The recent discovery of an eosinophilia-specific, imatinib-sensitive, karyotypically occult but fluorescence in situ hybridization-apparent molecular lesion in a subset of patients with blood eosinophilia has transformed the diagnostic as well as treatment approach to eosinophilic disorders. Primary (i.e. nonreactive) eosinophilia is considered either "clonal" or "idiopathic" based on the presence or absence, respectively, of either a molecular or bone marrow histological evidence for a myeloid neoplasm. Clonal eosinophilia might accompany a spectrum of clinicopathological entities, the minority of whom are molecularly characterized; Fip1-like-1-platelet-derived growth factor receptor alpha (FIP1L1-PDGFRA(+)) systemic mastocytosis, platelet-derived growth factor receptor beta (PDGFRB)-rearranged atypical myeloproliferative disorder, chronic myeloid leukemia, and the 8p11 syndrome that is associated with fibroblast growth factor receptor 1 (FGFR1) rearrangement. Hypereosinophilic syndrome (HES) is a subcategory of idiopathic eosinophilia and is characterized by an absolute eosinophil count of > or =1.5 x 10(9)/l for at least 6 months as well as eosinophil-mediated tissue damage. At present, a working diagnosis of primary eosinophilia mandates a bone marrow examination, karyotype analysis, and additional molecular studies in order to provide the patient with accurate prognostic information as well as select appropriate therapy. For example, the presence of either PDGFRA or PDGFRB mutations warrants the use of imatinib in clonal eosinophilia. In HES, prednisone, hydroxyurea, and interferon-alpha constitute first-line therapy, whereas imatinib, cladribine, and monoclonal antibodies to either interleukin-5 (mepolizumab) or CD52 (alemtuzumab) are considered investigational. Allogeneic transplantation offers a viable treatment option for drug-refractory cases.
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PMID:Modern diagnosis and treatment of primary eosinophilia. 1599 25

Gastrointestinal stromal tumors (GISTs) historically have differed from other soft-tissue sarcomas in demonstrating a particularly grim prognosis. GISTs have an extraordinarily high rate of recurrence after surgical resection and are highly resistant to radiation and standard chemotherapy. The discovery that constitutive activation of the c-kit gene drives malignant behavior in GISTs exposed a weakness that was soon exploited through the application of the novel targeted therapy imatinib, a small-molecule tyrosine kinase inhibitor of Bcr-Abl, KIT, and the platelet-derived growth factor receptor-alpha and -beta. Imatinib had shown unparalleled results in patients with advanced chronic myelogenous leukemia (remission rates approaching 98%), and the first GIST patients treated with imatinib demonstrated dramatic response rates unseen with other therapeutic modalities. Thousands of patients worldwide with advanced GIST have been treated with imatinib, with the demonstration of significant response rates, prolongation of survival, and improvement in quality of life. Studies of imatinib in both the neoadjuvant and adjuvant settings are now being conducted to evaluate whether low rates of cure with surgical resection alone can be improved. Additionally, multiple new targeted agents are being tested in patients with imatinib-resistant GIST. The gains that have been made in the treatment of GIST through the use of imatinib have helped to open the door to a new era of development of targeted therapeutic agents in oncology. Whether this new era of targeted therapy will provide the same advances in more common malignancies will be determined only through the ongoing application and development of clinical trials.
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PMID:Gastrointestinal stromal tumors and the evolution of targeted therapy. 1616 51

Imatinib mesylate (STI571) is an oral 2-phenylaminopyrimidine derivative that acts as a selective inhibitor against several receptor tyrosine kinases and has been viewed as one of the therapeutic success stories of the 21st century. Imatinib was first shown to inhibit the causative molecular translocation in chronic myelogenous leukemia, BCR-ABL. Because imatinib could also inhibit the activity of KIT, a 145-kD transmembrane glycoprotein, and because gastrointestinal stromal tumors (GISTs), the most common mesenchymal tumors of the digestive tract, are characterized by expression of a gain-of-function mutation in KIT, imatinib was used in therapeutic trials of GISTs beginning in 1999. The initial success has now resulted in more widespread use of imatinib for the treatment of patients with GIST. Molecular genetic studies have shown that most GISTs possess a KIT mutation in exon 9, 11, 13, or 17. Clinically, GIST patients with KIT exon 11 mutations (ie, the juxtamembrane region) are the most prevalent and sensitive to imatinib. In addition to the inhibitory effect on KIT, imatinib also inhibits the activity of mutant platelet-derived growth factor receptor-alpha (PDGFRalpha) found in a subset of GIST. What is becoming evident is that there are patients with GIST who lack mutations in KIT or PDGFRalpha, or possess "imatinib-resistant" mutations (such as exon 17 mutations in KIT and exon 18 mutations in PDGFRalpha). These patients typically do not respond well to imatinib therapy. Therefore, identifying additional genetic factors that contribute to the pathogenesis of GIST, independent of KIT and PDGFRalpha, will be important in developing additional anti-GIST therapies. As one might suspect from previous experiences with antitumor therapies, primary and secondary resistance to imatinib is also becoming a major clinical problem in the treatment of this disease. Therefore, new drugs that can serve as alternative therapies in imatinib-resistant patients with GIST or that can be used in combination with imatinib will be needed. As with most recent efforts to derive novel molecular target therapies to treat cancer, improved therapy of GIST will continue to benefit from advances in the molecular characterization of this disease.
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PMID:Molecular research directions in the management of gastrointestinal stromal tumors. 1624 52

Imatinib (STI571, Gleevec/Glivec) and other small-molecule tyrosine kinase inhibitors are highly effective in the treatment of chronic myeloid leukemia (CML), gastrointestinal stromal tumors and, for example, eosinophilia-associated chronic myeloproliferative disorders. This molecularly targeted approach disrupts abnormal tyrosine kinase dependent signalling pathways, thus providing a preferred treatment option for selected neoplastic disorders with activating mutations of Abelson-, Abl-related-, Kit-, and platelet-derived growth factor receptor A and B genes. Loss of response to imatinib may be due to an acquired resistance of emerging mutant tumor cell clones. Therapy is generally well tolerated. However, toxicities including edema, skin rashes, fatigue, nausea and myelosuppression have been reported. Philadelphia/Bcr-Abl-negative clonal chromosomal abnormalities may develop. Bone marrow trephines obtained from CML patients in complete remission with prolonged pancytopenia secondary to imatinib generally show marrow hypoplasia. Morphological features may be in keeping with either aplastic anemia or myelodysplasia developing in Philadelphia-negative hematopoiesis. Single or multilineage myelodysplasia may be accompanied by an excess of blasts and rarely evolves into acute leukemia in CML patients. Severe adverse hematological effects of imatinib are extremely rare. Current questions involve the molecular mechanisms of hematological side effects of tyrosine kinase inhibitors with special regard to the emergence of distinct aberrant clones.
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PMID:[Hematological side effects of tyrosine kinase inhibition using imatinib]. 1642 5


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