EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The term "targeted cancer therapies" refers to treatment strategies designed to inhibit the product of an oncogene involved in the process of neoplastic transformation. Different categories of targeted therapies can be identified: 1) Therapies directed at oncogenes that are directly involved in the initiation of neoplastic transformation: the use of imatinib for the treatment of CML or GIST is the classical model in this subgroup. Single agent targeted therapies generally produce high response rates in this situation. 2) Therapies directed at oncogenes involved at a later stage of neoplastic transformation. These oncogenes contribute to tumor progression but not necessarily to the onset of malignant transformation. The use of trastuzumab for HER2-amplified breast adenocarcinoma is the classical model in this subgroup. These treatments are associated with low response rates when used as single agent therapy, whereas generally displaying a synergistic or additive effect with classical chemotherapy in models currently available. In contrast, when these targeted therapies are applied to tumor models where the targeted gene is present but not directly involved in the process of malignant transformation, no antitumor efficacy is generally observed. Recently, the identification of HER1 mutations in subsets of lung carcinoma as a predictive factor for response to gefitinib and erlotinib provided an example of how the empiric use of a targeted treatment may enable to identify new nosological entities. The present paper reviews examples of targeted cancer therapies and their results.
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PMID:Targeted cancer therapies. 1574 38

Imatinib targets KIT and platelet-derived growth factor receptors (PDGFR) and is highly effective in the treatment of CML and GIST patients. Pancreatic cancers express KIT and PDGFRs. Therefore, 26 patients with unresectable pancreatic cancer were randomized to either gemcitabine (1000 mg/m2 weekly) or imatinib (2x400 mg po) treatment daily. Pancreatic adenocarcinoma was confirmed histologically and expression of KIT and PDGFRbeta was determined immunohistochemically in the biopsy specimens. Quality of life was assessed with two standard questionnaires. No objective responses were seen in either group. Median time to progression was 77 and 29 days (P=0.411) and median survival time was 140 and 60 days (P=0.517) for gemcitabine and imatinib, respectively. Survival and treatment responses were independent of KIT and PDGFRbeta expression in patients treated with imatinib. Grade 3/4 toxicities of imatinib treatment were anemia, elevated liver enzymes, vomiting, and dyspnea. Patients treated with imatinib reported diarrhoea and/or altered bowel function more frequently, which were treatable symptomatically. Quality of life was similar in both groups. In this small series of pancreatic cancer patients, treatment with imatinib was not associated with a significant control of cancer progression.
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PMID:The tyrosine kinase inhibitor imatinib fails to inhibit pancreatic cancer progression. 1589 16

Interactions between the histone deacetylase inhibitor SAHA and the pharmacologic MEK1/2 inhibitor PD184352 were examined in Bcr/Abl+ human leukemia cells. Coadministration of minimally toxic concentrations of SAHA (or sodium butyrate) and PD184352 (or U0126) resulted in a synergistic increase in mitochondrial damage, caspase activation, and apoptosis in K562 and LAMA 84 cells. Similar interactions were observed in CD34+ cells from two patients with CML and in imatinib mesylate-resistant K562 cells but not in normal human CD34+ bone marrow cells. These events were associated with a marked increase in ROS generation, inactivation of ERK and Akt, downregulation of p21CIP1, Bcr/Abl, and cyclin D1, and activation of JNK. Of these events, ROS generation, ERK inactivation, and cytochrome c/AIF release were largely caspase-independent, whereas the other phenomena displayed varying degrees of caspase-dependence. Using pharmacologic and genetic approaches, generation of ROS, p21CIP1 downregulation, and inactivation of Akt and MEK were found to play significant functional roles in SAHA/PD184352-mediated lethality, whereas JNK activation and Raf-1 downregulation were determined to represent secondary events. These findings indicate that interruption of the MEK/ERK pathway substantially lowers the threshold for HDAC inhibitor-mediated oxidative injury, mitochondrial dysfunction, and apoptosis, suggesting that this approach warrants further examination in Bcr/Abl+-related malignancies.
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PMID:Synergistic interactions between MEK1/2 and histone deacetylase inhibitors in BCR/ABL+ human leukemia cells. 2773 68

Mutations within the FLT3 gene are of growing importance for classification, risk assessment, and therapeutic targeting of acute myeloid leukemia (AML). We analyzed 656 AML patients for a recently described single-nucleotide polymorphism (SNP) in the third immunoglobulin-like domain of the extracellular region of FLT3. The FLT3 D324N variant was present in 42 cases (6.4%), but it was not associated with a specific AML subtype and did not show an elevated leukocyte count, as do other FLT3 mutations. In remission samples, a 50% ratio of the normal to the D324N variant was detectable. Stably expressed in IL-3 dependent Ba/F3 cells, the D324N variant did not confer receptor autophosphorylation, factor independent growth, or increased resistance to apoptotic cell death in response to varying doses of FLT3 ligand. In 400 healthy donors, the FLT3 D324N variant was detected in 6 cases (1.5%) and segregated in a family. Thus, it was shown to be a polymorphism with a lower frequency in healthy controls than in patients with AML (P < 0.001). In addition, 21 of 234 CML (9.0%) and 7 of 155 ALL (4.5%) cases carried the FLT3 D324N. Our data suggest that the FLT3 D324N variant might be associated with a predisposition to different subtypes of leukemia.
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PMID:D324N single-nucleotide polymorphism in the FLT3 gene is associated with higher risk of myeloid leukemias. 1632 Feb 49

The goal of this study was to elucidate the functional roles of PI3K/AKT and MEK/ERK signaling on the proliferation and apoptosis of STI571-sensitive and -resistant CML cell lines in a co-culture system with human marrow stromal cells (MSCs), mimicking the bone marrow microenvironment. The phosphorylation of AKT and ERK was enhanced by co-culture with MSCs in both STI571-sensitive KBM-5 and STI571-resistant KBM-5/STI cells. In KBM-5 cells, the STI571 and PI3K inhibitor LY294002 combination was effective on apoptosis induction in the MSC co-culture system. In KBM-5/STI cells, treatment with LY294002 or PD98059 alone resulted in massive apoptosis, which was enhanced by co-culture with MSCs. These results provide a rationale for multi-molecular target therapy approaches based on a combination of signal transduction inhibitors with STI571 in CML.
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PMID:[The anti-tumoral effect of PI3K inhibitor and MEK inhibitor combined with STI571 on chronic myeloid leukemia cells in a bone marrow stromal cell co-culture system]. 1709 75

This study was aimed to investigate the regulative effect of ERK and p38 signal transduction pathway on cell cycle of CML. The mRNA and protein expression of ERK, p38, cyclin D(2), cyclin E and p27 (ERK and p38 were Phosph-ERK and Phosph-P38) in CML cells and K562 cell lines were detected by RT-PCR and Western blot, respectively; cell cycle was determined by FCM, and their relationship was analyzed. The results showed that the mRNA and protein expressions of ERK, p38, cyclin D(2) and cyclin E in CML cells and K562 cells increased (P<0.01) and the expression of p27 decreased (P<0.01). There was positive correlation between the protein expressions of cyclin D(2) and the protein expression of ERK, p38 and cyclin E, but there was negative correlation between the protein expressions of cyclin D(2) and the protein expression of p27. The percentage of cells in G(0)/G(1) phase was decreased and the percentage of cells in S phase was increased, there was significant difference as compared with control (P<0.05). It is concluded that increase of the mRNA expression and protein activity of ERK and p38 activate the cell cycle-regulating proteins such as cyclin D(2), cyclin E, p27 which results in shortening of G(0)/G(1) phase, switching cell to S phase through G(1)/S check point quickly and accelerating cell cycle progression and cell proliferation, and eventually leads to occurrence of CML.
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PMID:[Regulative effects of ERK and P38 signal transduction pathway on cell cycle in chronic myeloid leukemia]. 1749 24

The term chronic myeloproliferative disorders was originally used by Damashek to describe the link amongst a group of acquired blood diseases. Recent molecular genetic analysis has provided a scientific basis for this observation. Underlying myeloproliferative disorders are acquired abnormalities of tyrosine kinase genes. These may be chromosomal translocations resulting in the creation of a fusion kinase gene, examples of which include ABL, FGFR, and PDGFR as seen in disorders CML, 8p11 myeloproliferative syndrome, atypical CML and chronic eosinophilic leukaemia. The second group of tyrosine kinase abnormalities are point mutations in JAK2, a cytosolic TK. This abnormality is seen in 30-97% of cases of MPD with the phenotype PV, ET or CIMF.
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PMID:Chronic myeloproliferative disorders: the role of tyrosine kinases in pathogenesis, diagnosis and therapy. 1758 79

Imatinib mesilate, which efficiently inhibits BCR-ABL,and KIT as well as platelet-derived growth factor receptor (PDGF-R) kinases, is highly effective for clinical treatment of CML, Ph+ALL, and advanced GIST with good tolerability, respectively. Acquired resistance to the drug,however, becomes an clinically emerging problem with long-standing use. Meanwhile, sunitinib malate,which inhibits three VEGF-Rs and FLT 3 in addition to KIT as well as PDGF-R, was clinically evaluated in the phase II clinical trials for imatinib-resistant or intolerant GIST, and advanced renal cell carcinoma in Japan. Sunitinib is therapeutically effective for both on imatinib-resistant GIST and advanced renal cell carcinoma with modest tolerability, and is now under review for approval in Japan.
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PMID:[Imatinib . Sunitinib]. 1768 1

Leukemia is thought to arise from malignant stem cells, which have been described for acute and chronic myeloid leukemia (AML and CML) and for acute lymphoblastic leukemia (ALL). Leukemia stem cells (LSCs) are relatively resistant to current chemotherapy and likely contribute to disease relapse and progression. Consequently, the identification of drugs that can efficiently eradicate LSCs is an important priority. In the present study, we investigated the antileukemia activity of the compound TDZD-8. Analysis of primary AML, blast crisis CML (bcCML), ALL, and chronic lymphoblastic leukemia (CLL) specimens showed rapid induction of cell death upon treatment with TDZD-8. In addition, for myeloid leukemias, cytotoxicity was observed for phenotypically primitive cells, in vitro colony-forming progenitors, and LSCs as defined by xenotransplantation assays. In contrast, no significant toxicity was observed for normal hematopoietic stem and progenitor cells. Notably, cell death was frequently evident within 2 hours or less of TDZD-8 exposure. Cellular and molecular studies indicate that the mechanism by which TDZD-8 induces cell death involves rapid loss of membrane integrity, depletion of free thiols, and inhibition of both the PKC and FLT3 signaling pathways. We conclude that TDZD-8 uses a unique and previously unknown mechanism to rapidly target leukemia cells, including malignant stem and progenitor populations.
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PMID:Rapid and selective death of leukemia stem and progenitor cells induced by the compound 4-benzyl, 2-methyl, 1,2,4-thiadiazolidine, 3,5 dione (TDZD-8). 1778 84

CML (chronic myeloid leukaemia) is a myeloproliferative disease that originates in an HSC (haemopoietic stem cell) as a result of the t(9;22) translocation, giving rise to the Ph (Philadelphia chromosome) and bcr-abl oncoprotein. The disease starts in CP (chronic phase), but as a result of genomic instability, it progresses over time to accelerated phase and then to BC (blast crisis), becoming increasingly resistant to therapy. bcr-abl is a constitutively active tyrosine kinase that has been targeted by TKIs (tyrosine kinase inhibitors), including IM (imatinib mesylate), nilotinib and dasatinib. We have developed various flow cytometry techniques to enable us to isolate candidate CML stem cells from CP patients at diagnosis that efflux Hoechst dye, express CD34, lack CD38 and are cytokine-non-responsive in culture over periods of up to 12 days in growth factors. These stem cells have been shown to regenerate bcr-abl-positive haemopoiesis in immunocompromised mice upon transplantation. We previously demonstrated that IM was antiproliferative for CML stem cells but did not induce apoptosis. Clinical experience now confirms that IM may not target CML stem cells in vivo with few patients achieving complete molecular remission and relapse occurring rapidly upon drug withdrawal. Our recent efforts have focused on understanding why CML stem cells are resistant to IM and on trying to find novel ways to induce apoptosis of this population. We have shown that CML stem cells express very high levels of functional wild-type bcr-abl; no kinase domain mutations have been detected in the stem cell population. Dasatinib, a more potent multitargeted TKI than IM, inhibits bcr-abl activity more efficiently than IM but still does not induce apoptosis of the stem cell population. Most recently, we have tested a number of novel drug combinations and found that FTIs (farnesyl transferase inhibitors) have activity against CML. BMS-214662 is the most effective of these and induces apoptosis of phenotypically and functionally defined CML stem cells in vitro, as a single agent and in combination with IM or dasatinib. The effect against CML stem cells is selective with little effect on normal stem cells. The drug is also effective against BC CML stem cells and equally effective against wild-type and mutant bcr-abl, including the most resistant mutant T315I. In association with apoptosis, there is activation of caspase 8 and caspase 3, inhibition of the MAPK pathway, IAP-1 (inhibitor of apoptosis protein-1), NF-kappaB (nuclear factor kappaB) and iNOS (inducible nitric oxide synthase). Furthermore, BMS-214662 synergizes with MEK1/2 [MAPK (mitogen-activated protein kinase)/ERK (extracellular-signal-regulated kinase) kinase 1/2] inhibitors, suggesting a second mechanism other that RAS inhibition for induction of apoptosis. Our intentions are now to explore the activity of BMS-214662 in other cancer stem cell disorders and to move this preclinical work to a clinical trial combining dasatinib with BMS-214662 in CML.
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PMID:Characterization of cancer stem cells in chronic myeloid leukaemia. 1795 48

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