Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023467 (acute myeloid leukemia)
 35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

R115777 (Tipifarnib, Zarnestra)-farnesyl transferase inhibitor belongs to the new class of signal transduction inhibitors which seems to be yielding results in the treatment of patients with solid tumors. Recently it has also been considered as a drug of promise in hematologic malignancies such as acute myeloid leukemia (AML), especially in older patients, in chronic myelogenous leukemia (CML) as well as myelodysplastic syndromes (MDS). The aim of our study was to evaluate the influence of R115777 used alone or with purine nucleoside analogs (PNA): cladribine (2-CdA) and fludarabine (F-ara-A) on leukemic progenitors [colony-forming unit-leukemia (CFU)-L] from AML patients. Our studies were based on the methods of semisolid leukemic CFU-L and normal granulocyte-macrophage progenitor (CFU-GM) cultures in vitro. R115777 was added to the culture alone or in combinations with PNA. We showed that R115777 used alone or together with PNA at all combinations significantly inhibited the colony growth of AML CFU-L, when compared with normal CFU-GM (P < 0.01). In addition, the drugs used in combinations of two higher concentrations in significantly higher degree inhibited CFU-L colony growth, when compared either with R115777 or with any of PNA used alone (P < 0.04). IC(50) for R115777 were 67.1 and 121.9 nm for AML CFU-L and normal CFU-GM, respectively. Furthermore, in the case of AML the combination index was 0.89 and 1.16, respectively, for the combination of R115777 with 2-CdA and R115777 with F-ara-A. An additive effect on AML CFU-L cells and subadditive effect on normal CFU-GM were seen. To assess a proapoptotic effect, the drugs were added to the liquid cultures at the same concentrations as for clonogenic assays. A significant increase in the rate of apoptosis induced by combinations of drugs in comparison with single agents was observed. In conclusion, the combination of R115777 with both PNA could be more effective than the drugs used alone. However, further experimental studies on the usefulness of these combinations in the treatment of myeloid leukemia patients are warranted.
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PMID:The influence of farnesyl protein transferase inhibitor R115777 (Zarnestra) alone and in combination with purine nucleoside analogs on acute myeloid leukemia progenitors in vitro. 1552 64

Although the prognosis of pediatric leukemias has improved considerably, many patients still have relapses. Tipifarnib, a farnesyl transferase inhibitor (FTI), was developed to target malignancies with activated RAS, including leukemia. We tested 52 pediatric acute myeloid leukemia (AML) and 36 pediatric acute lymphoblastic leukemia (ALL) samples for in vitro sensitivity to tipifarnib using a total cell-kill assay and compared these results to those obtained with normal bone marrow (N BM) samples (n = 25). AML samples were significantly more sensitive to tipifarnib compared to B-cell precursor ALL (BCP ALL) or N BM samples. Within AML, French-American-British (FAB) M5 samples were most sensitive to tipifarnib. T-cell ALL samples were significantly more sensitive than BCP ALL and N BM samples. In AML there was a marked correlation between tipifarnib resistance and daunorubicin or etoposide resistance, but not to cytarabine or 6-thioguanine. RAS mutations were present in 32% of AML and 18% of ALL samples, but there was no correlation between RAS mutational status and sensitivity to tipifarnib. Future studies are needed to identify biomarkers predictive of tipifarnib sensitivity. In addition, clinical studies, especially in T-cell ALL, seem warranted.
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PMID:In vitro profiling of the sensitivity of pediatric leukemia cells to tipifarnib: identification of T-cell ALL and FAB M5 AML as the most sensitive subsets. 1605 37

It has been established in preclinical models of multiple myeloma and acute myeloid leukemia (AML) that the bone marrow microenvironment provides protection from chemotherapy- and death receptor-mediated apoptosis. This form of resistance, termed de novo drug resistance, occurs independent of chronic exposure to cancer-related therapies and likely promotes the development of multidrug resistance. Consequently, it is of major interest to identify compounds or drug combinations that can overcome environment-mediated resistance. In this study, we investigated the activity of tipifarnib (Zarnestra, formerly R115777) combined with bortezomib (Velcade, formerly PS-341) in microenvironment models of multiple myeloma and AML. The combination proved to be synergistic in multiple myeloma and AML cell lines treated in suspension culture. Even in tumor cells relatively resistant to tipifarnib, combined activity was maintained. Tipifarnib and bortezomib were also effective when multiple myeloma and AML cells were adhered to fibronectin, providing evidence that the combination overcomes cell adhesion-mediated drug resistance (CAM-DR). Of importance, activation of the endoplasmic reticulum stress response was enhanced and correlated with apoptosis and reversal of CAM-DR. Multiple myeloma and AML cells cocultured with bone marrow stromal cells also remained sensitive, although stromal-adhered tumor cells were partially protected (relative to cells in suspension or fibronectin adhered). Evaluation of the combination using a transwell apparatus revealed that stromal cells produce a protective soluble factor. Investigations are under way to identify the cytokines and/or growth factors involved. In summary, our study provides the preclinical rationale for trials testing the tipifarnib and bortezomib combination in patients with multiple myeloma and AML.
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PMID:Tipifarnib and bortezomib are synergistic and overcome cell adhesion-mediated drug resistance in multiple myeloma and acute myeloid leukemia. 1642 5

Tipifarnib is an oral nonpeptidomimetic farnesyl transferase inhibitor developed to inhibit a variety of farnesylated targets potentially relevant to the therapy of various malignancies. The agent has, thus far, been tested in a wide array of both solid tumors and myeloid malignancies. Phase I trials have demonstrated that tipifarnib is best given in a twice-daily fashion in doses of 600-1200 mg/day to avoid significant neuropathy, fatigue and myelosuppression. Subsequent trials demonstrated that pauses in therapy (with staccato dosing schedules) seem to increase tolerability without a clear decrease in efficacy. Phase II and III trials of tipifarnib as monotherapy for breast, colorectal, lung (both non-small cell and small cell), brain, pancreatic and urothelial cancers have all been disappointing. Combination trials of tipifarnib with cytotoxic, hormonal or biological therapies are ongoing. Tipifarnib has displayed the most interesting activity in the myeloid malignancies of myelodysplastic syndrome, myelofibrosis with myeloid metaplasia and elderly/high-risk acute myeloid leukemia. Overall clinical response rates of approximately 20-30% have been reported in myelodysplastic syndrome and acute myeloid leukemia patients who have few alternative therapeutic options. US FDA approval for tipifarnib awaits results of subsequent Phase III trials of the agent in elderly acute leukemia.
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PMID:Tipifarnib: farnesyl transferase inhibition at a crossroads. 1650 48

Outcomes for older adults with acute myelogenous leukemia (AML) are poor due to both disease and host-related factors. In this phase 2 study, we tested the oral farnesyltransferase inhibitor tipifarnib in 158 older adults with previously untreated, poor-risk AML. The median age was 74 years, and a majority of patients had antecedent myelodysplastic syndrome. Complete remission (CR) was achieved in 22 patients (14%); partial remission or hematologic improvement occurred in 15 patients, for an overall response rate of 23%. The median duration of CR was 7.3 months and the median survival of complete responders was 18 months. Adverse karyotype, age 75 years or older, and poor performance status correlated negatively with survival. Early death in the absence of progressive disease was rare, and drug-related nonhematologic serious adverse events were observed in 74 patients (47%). Inhibition of farnesylation of the surrogate protein HDJ-2 occurred in the large majority of marrow samples tested. Baseline levels of phosphorylated mitogen-activated protein kinase and AKT did not correlate with clinical response. Tipifarnib is active and well tolerated in older adults with poor-risk AML and may impart a survival advantage in those patients who experience a clinical response.
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PMID:A phase 2 study of the farnesyltransferase inhibitor tipifarnib in poor-risk and elderly patients with previously untreated acute myelogenous leukemia. 1708 23

Farnesyltransferase inhibitors (FTIs) inhibit certain cellular signal transduction pathways, and are being evaluated for activity in hematologic malignancies. Tipifarnib and lonafarnib are orally available FTIs that are active against a variety of targets and inhibit several pathways involved in the pathogenesis of hematologic malignancies. FTIs have demonstrated activity in a variety of hematologic diseases, including acute myeloid leukemia, myelodysplastic syndrome, chronic myeloid leukemia, and multiple myeloma. This article reviews the clinical experience with tipifarnib and lonafarnib in the treatment of hematologic malignancies.
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PMID:Farnesyltransferase inihibitors in hematologic malignancies. 1729 17

Traditional cytotoxic chemotherapy is effective at temporizing AML in the majority of patients but cures a small minority. Thus, enrollment in clinical trials remains a recommended approach for nearly all patients. While signal transduction inhibition is a promising area to advance AML therapy, no agent as monotherapy has demonstrated obvious clinical benefit over traditional cytotoxic chemotherapy. Tipifarnib is perhaps an exception as it is the only signal transduction inhibitor in AML that reproducibly shows clinical benefit using traditional chemotherapy response criteria. Due to toxicity and low response rates, however, the potential advantages of tipifarnib over either traditional cytotoxic chemotherapy or best supportive care alone await confirmation from phase III studies. Available data suggest that combining signal transduction inhibitors with chemotherapy will improve response rates. Clinical trials to test this hypothesis are ongoing using various agents directed against targets such as FLT3, ras/raf/MAPK, mTOR, KIT, and VEGF, but the optimal approach is yet to be defined. Similarly unclear is the benefit of a potent specific kinase inhibitor versus a broad inhibitor of multiple kinases that could prove relevant to leukemia biology. In general, the incomplete understanding of many signal transduction inhibitors' true mechanism of action limits our ability to identify pretreatment predictors of response. To this end, the extensive measures applied to correlate the biologic activity of FLT3 inhibitors with clinical responses are noteworthy and provide useful lessons for clinical trial design and drug development both in leukemia and other cancers.
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PMID:Exploiting signal transduction pathways in acute myelogenous leukemia. 1809 42

Increased understanding of the cellular mechanisms associated with various malignancies has allowed researchers to develop agents that selectively target the cellular proteins and pathways implicated in the pathogenesis of malignancy. Tipifarnib is a specific and potent farnesyltransferase inhibitor that demonstrates in vivo and in vitro activity against a variety of human cancers. Although tipifarnib was initially thought to target the Ras protein, recent evidence suggests that the presence of ras mutations is not necessary for the antitumor effects of tipifarnib, and that tipifarnib may exert its effects downstream of Ras. The oral administration and favorable toxicity profile of tipifarnib, combined with its activity in a variety of intracellular pathways that have been implicated in the pathogenesis of hematologic malignancies, make it an especially attractive agent for use in patients with acute myeloid leukemia (AML), myelodysplastic syndromes, chronic myelogenous leukemia (CML), and multiple myeloma. Because hematologic malignancies are likely driven by multiple genetic aberrations, the most effective treatment strategy will likely combine multiple agents with complementary mechanisms of action. Thus, additional studies of combination regimens that incorporate tipifarnib with other antineoplastic agents are crucial. Early results from studies combining tipifarnib with imatinib or etoposide in CML and AML have been promising and warrant further evaluation in larger clinical trials.
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PMID:Farnesyltransferase inhibition in hematologic malignancies: the clinical experience with tipifarnib. 1849 98

Patients aged 60 years and over with previously untreated acute myeloid leukemia were enrolled in a Phase I study combining tipifarnib with standard induction therapy. The regimen consisted of cytarabine 100 mg/m(2)/day continuous intravenous (i.v.) infusion on days 1-7, daunorubicin 60 mg/m(2)/day i.v. push x 3 on days 6-8 and tipifarnib twice daily on days 6-15. Tipifarnib was escalated over four dose levels (200, 300, 400 and 600 mg). Patients achieving complete response (CR) were eligible to receive one consolidation using the same regimen. The following dose-limiting toxicities (DLTs) were identified during induction: dose level I: 2/6 (hyperbilirubinemia, respiratory arrest), level II: 0/3, level III: 0/3 and level IV: 4/10 (one each of diarrhea, neutropenic enterocolitis, arrhythmia and delayed hematologic recovery post-consolidation). There were no DLTs due to delayed hematologic recovery post-induction. Of 22 evaluable patients, there were 10 CR, 2 morphologic leukemia-free state (MLFS), 2 partial remission (PR) and 8 non-responders. Of seven patients with adverse risk cytogenetics, there were four CR/MLFS and one PR. In summary, this regimen was well tolerated and the maximum tolerated dose was not reached, although somewhat more severe gastrointestinal toxicity was seen at dose level IV. Tipifarnib 600 mg b.i.d. is considered the recommended dose for further study using this regimen.
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PMID:A phase I study of tipifarnib combined with conventional induction and consolidation therapy for previously untreated patients with acute myeloid leukemia aged 60 years and over. 1909 53

The farnesyltransferase inhibitor tipifarnib exhibits modest activity against acute myelogenous leukemia. To build on these results, we examined the effect of combining tipifarnib with other agents. Tipifarnib inhibited signaling downstream of the farnesylated small G protein Rheb and synergistically enhanced etoposide-induced antiproliferative effects in lymphohematopoietic cell lines and acute myelogenous leukemia isolates. We subsequently conducted a phase 1 trial of tipifarnib plus etoposide in adults over 70 years of age who were not candidates for conventional therapy. A total of 84 patients (median age, 77 years) received 224 cycles of oral tipifarnib (300-600 mg twice daily for 14 or 21 days) plus oral etoposide (100-200 mg daily on days 1-3 and 8-10). Dose-limiting toxicities occurred with 21-day tipifarnib. Complete remissions were achieved in 16 of 54 (30%) receiving 14-day tipifarnib versus 5 of 30 (17%) receiving 21-day tipifarnib. Complete remissions occurred in 50% of two 14-day tipifarnib cohorts: 3A (tipifarnib 600, etoposide 100) and 8A (tipifarnib 400, etoposide 200). In vivo, tipifarnib plus etoposide decreased ribosomal S6 protein phosphorylation and increased histone H2AX phosphorylation and apoptosis. Tipifarnib plus etoposide is a promising orally bioavailable regimen that warrants further evaluation in elderly adults who are not candidates for conventional induction chemotherapy. These clinical studies are registered at www.clinicaltrials.gov as #NCT00112853.
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PMID:Active oral regimen for elderly adults with newly diagnosed acute myelogenous leukemia: a preclinical and phase 1 trial of the farnesyltransferase inhibitor tipifarnib (R115777, Zarnestra) combined with etoposide. 1944 68


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