Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Recent advances in the treatment and management of haematological malignancies are due in large part to an improved understanding of the basic biology that drives tumour cell growth and survival. This improved understanding has led to the clinical study and approval of a number of different targeted agents across a number of different haematological tumours. This review of clinical data covers some of the exciting clinical advances that were reported at the recent American Society of Hematology meeting in San Diego, USA. This paper focuses on three important areas of biological research that has yielded clinical trials that have affected clinical outcomes. The areas covered include proteasome inhibition and myeloma, tyrosine kinase inhibitors that are directed at the BCR-ABL fusion protein and chronic myeloid leukaemia/acute lymphoblastic leukaemia, and FLT3 inhibitors and acute myeloid leukaemia acute lymphoblastic leukaemia therapy.
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PMID:Targeted therapy for haematological malignancies: clinical update from the American Society of Hematology, 2004. 1614

Interactions between the tyrphostin adaphostin and proteasome inhibitors (eg, MG-132 and bortezomib) were examined in multiple human leukemia cell lines and primary acute myeloid leukemia (AML) specimens. Cotreatment of Jurkat cells with marginally toxic concentrations of adaphostin and proteasome inhibitors synergistically potentiated mitochondrial damage (eg, cytochrome c release), caspase activation, and apoptosis. Similar interactions occurred in other human leukemia cell types (eg, U937, HL-60, Raji). These interactions were associated with a marked increase in oxidative damage (eg, ROS generation), down-regulation of the Raf/MEK/ERK pathway, and JNK activation. Adaphostin/MG-132 lethality as well as mitochondrial damage, down-regulation of Raf/MEK/ERK, and activation of JNK were attenuated by the free-radical scavenger NAC, suggesting that oxidative damage plays a functional role in antileukemic effects. Ectopic expression of Raf-1 or constitutively active MEK/ERK or genetic interruption of the JNK pathway significantly diminished adaphostin/MG-132-mediated lethality. Interestingly, enforced Raf or MEK/ERK activation partially diminished adaphostin/MG-132-mediated ROS generation, suggesting the existence of an amplification loop. Finally, the adaphostin/MG-132 regimen displayed similar toxicity toward 5 primary AML samples but not normal hematopoietic progenitors (eg, bone marrow CD34+ cells). Collectively, these findings suggest that potentiating oxidative damage by combining adaphostin with proteasome inhibitors warrants attention as an antileukemic strategy.
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PMID:The tyrphostin adaphostin interacts synergistically with proteasome inhibitors to induce apoptosis in human leukemia cells through a reactive oxygen species (ROS)-dependent mechanism. 3112 18

We show that multiple myeloma (MM), the second most commonly diagnosed hematologic malignancy, is responsive to hsp90 inhibitors in vitro and in a clinically relevant orthotopic in vivo model, even though this disease does not depend on HER2/neu, bcr/abl, androgen or estrogen receptors, or other hsp90 chaperoning clients which are hallmarks of tumor types traditionally viewed as attractive clinical settings for use of hsp90 inhibitors, such as the geldanamycin analog 17-AAG. This class of agents simultaneously suppresses in MM cells the expression and/or function of multiple levels of insulin-like growth factor receptor (IGF-1R) and interleukin-6 receptor (IL-6R) signaling (eg, IKK/NF-kappaB, PI-3K/Akt, and Raf/MAPK) and downstream effectors (eg, proteasome, telomerase, and HIF-1alpha activities). These pleiotropic proapoptotic effects allow hsp90 inhibitors to abrogate bone marrow stromal cell-derived protection on MM tumor cells, and sensitize them to other anticancer agents, including cytotoxic chemotherapy and the proteasome inhibitor bortezomib. These results indicate that hsp90 can be targeted therapeutically in neoplasias that may not express or depend on molecules previously considered to be the main hsp90 client proteins. This suggests a more general role for hsp90 in chaperoning tumor- or tissue-type-specific constellations of client proteins with critical involvement in proliferative and antiapoptotic cellular responses, and paves the way for more extensive future therapeutic applications of hsp90 inhibition in diverse neoplasias, including MM.
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PMID:Antimyeloma activity of heat shock protein-90 inhibition. 1623 64

Renal cell carcinoma (RCC) is a highly treatment-resistant tumor type; however, advances in elucidating the molecular pathophysiology underlying RCC has led to the identification of promising targets for therapeutic intervention. In clear-cell RCC, mutations to the von Hippel-Lindau (VHL) gene results in the up regulation of many proteins necessary for tumor growth and survival--such as vascular endothelial growth factor (VEGF), basic fibroblast growth factor (bFGF) and platelet derived growth factor (PDGF), which are involved in tumor-initiated angiogenesis. Carbonic anhydrase IX and signaling via the epidermal growth factor receptor (EGFR) are involved in tumor cell proliferation and are also up regulated by mutation in the VHL gene. The intracellular messenger pathways phosphoinositide 3-kinase (PI3K) and Raf/MEK/ERK act as convergence points for positive growth signaling; the Raf/MEK/ERK pathway is also implicated in apoptosis. Several agents in development target VEGF (bevacizumab), the VEGF receptor (PTK787, SU11248, VEGF-trap, and BAY 43-9006), the PDGF receptor (SU11248 and BAY 43-9006), or the EGF receptor (gefitinib, cetuximab, ABX-EGF, and erlotinib). The intracellular Raf/MEK/ERK signaling cascade has been targeted at either the level of Raf (BAY 43-9006, ISIS 5132) or MEK (CI-1040, PD184352 and ARRY-142886), and PI3K signaling is disrupted by CCI-779. WX-G250 targets the G250 antigen, and PS-341 disrupts the 26S proteasome mediating the degradation of intracellular proteins. Given that multiple pathways contribute to tumor growth, anti-tumor activity may be increased by agents targeting multiple pathways, or by combining agents to allow horizontal or vertical inhibition of multiple pathways.
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PMID:Targeted agents for the treatment of advanced renal cell carcinoma. 1630 62

The vasoactive hormone angiotensin II (Ang II) probably triggers inflammatory cardiovascular diseases by activating transcription factors such as NF-kappaB. We describe here a novel mode of NF-kappaB activation in cultured vascular smooth muscle cells exposed to Ang II. Ang II treatment resulted in an increase in the phosphotransferase activity of the IKK complex, which was mediated through the AT1 receptor subtype. The typical phosphorylation and proteasome-dependent degradation of the NF-kappaB inhibitor IkappaBalpha were not observed. Rather, Ang II treatment of vascular smooth muscle cells led to the phosphorylation of p65 on serine 536, a signal detected in both the cytoplasm and the nuclear compartments. The use of pharmacological inhibitors that inhibit the activation of MEK by Ang II revealed that phosphorylation of p65 on serine 536 did not require the MEK-ERK-RSK signaling pathway. On the other hand, specifically targeting the IKKbeta subunit of the IKK complex by overexpression of a dominant negative version of IKKbeta (IKKbeta K44A) or silencing RNA technology demonstrated that the IKKbeta subunit of the IKK complex was responsible for the detected phosphoserine 536 signal in Ang II-treated cells. Characterization of the signaling pathway leading to activation of the IKK complex by Ang II revealed that neither epidermal growth factor receptor transactivation nor the phosphatidylinositol 3-kinase-AKT signaling cascade were involved. Collectively, our data demonstrate that the proinflammatory activity of Ang II is independent of the classical pathway leading to IkappaBalpha phosphorylation and degradation but clearly depends on the recruitment of an IKK complex signaling cascade leading to phosphorylation of p65 on serine 536.
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PMID:The proinflammatory actions of angiotensin II are dependent on p65 phosphorylation by the IkappaB kinase complex. 1651 50

Targeting tyrosine kinase receptors (RTKs) with specific Abs is a promising therapeutic approach for cancer treatment, although the molecular mechanism(s) responsible for the Abs' biological activity are not completely known. We targeted the transmembrane RTK for hepatocyte growth factor (HGF) with a monoclonal Ab (DN30). In vitro, chronic treatment of carcinoma cell lines resulted in impairment of HGF-induced signal transduction, anchorage-independent growth, and invasiveness. In vivo, administration of DN30 inhibited growth and metastatic spread to the lung of neoplastic cells s.c. transplanted into immunodeficient nu/nu mice. This Ab efficiently down-regulates HGF receptor through a molecular mechanism involving a double proteolytic cleavage: (i) cleavage of the extracellular portion, resulting in "shedding" of the ectodomain, and (ii) cleavage of the intracellular domain, which is rapidly degraded by the proteasome. Interestingly, the "decoy effect" generated by the shed ectodomain, acting as a dominant negative molecule, enhanced the inhibitory effect of the Ab.
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PMID:Ab-induced ectodomain shedding mediates hepatocyte growth factor receptor down-regulation and hampers biological activity. 1654 40

To investigate the upstream effector that led to tau hyperphosphorylation, nitration, and accumulation as seen in Alzheimer's disease brain, and the underlying mechanisms, we bilaterally injected SIN-1, a recognized peroxynitrite donor, into the hippocampus of rat brain. We observed that the level of nitrated and hyperphosphorylated tau was markedly increased in rat hippocampus 24 h after drug administration, and these alterations were prevented by preinjection of uric acid, a natural scavenger of peroxynitrite. Concomitantly, we detected a significant activation in glycogen synthase kinase-3beta (GSK-3beta) and p38 MAPKs, including p38alpha, p38beta, and p38delta, but no obvious change was measured in the activity of p38gamma, ERK, and c-Jun amino-terminal kinase (JNK). Both nitrated tau and hyperphosphorylated tau were aggregated in the hippocampus, in which the activity of 20S proteasome was significantly arrested in SIN-1-injected rats. Further studies demonstrated that the hyperphosphorylated tau was degraded as efficiently as normal tau by 20S proteasome, but the nitrated tau with an unorderly secondary structure became more resistant to the proteolysis. These results provide the first in vivo evidence showing that peroxynitrite simultaneously induces tau hyperphosphorylation, nitration, and accumulation, and that activation of GSK-3beta, p38alpha, p38beta, p38delta isoforms and the inhibition of proteasome activity are respectively responsible for the peroxynitrite-induced tau hyperphosphorylation and accumulation. Our findings reveal a common upstream stimulator and a potential therapeutic target for Alzheimer-like neurodegeneration.
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PMID:Peroxynitrite induces Alzheimer-like tau modifications and accumulation in rat brain and its underlying mechanisms. 1681 18

Previous work has demonstrated that epidermal growth factor family ligands, signaling through the MAPK/ERK pathway, prevent hen granulosa cell differentiation, in vitro, even in the presence of factors that promote differentiation (e.g. TGFbeta and FSH). The working hypothesis is that a release from tonic inhibitory ERK signaling is prerequisite for the initiation of hen granulosa cell differentiation. Initial results demonstrate that the ERK signaling pathway is desensitized after treatment with TGFalpha or betacellulin. Thus, studies were conducted to evaluate a role for MAPK phosphatases in the termination of ERK signaling in undifferentiated granulosa cells. Subsequent to ligand-induced translocation of ERK to the nucleus, de novo transcription and translation of one or more protein tyrosine or dual-specificity phosphatases results in dephosphorylation and localization of inactivated ERK within the nucleus. RT-PCR amplification reveals expression of the MAPK-selective phosphatases (MKP), MKP-1, -3, and dual-specificity phosphatase 5, in granulosa cells. TGFalpha induces expression (within 3 h) of mRNA encoding the ERK-selective nuclear phosphatase, dual-specificity phosphatase 5, and subsequently (by 20 h) induces mRNA encoding the cytoplasmic phosphatase, MKP-3. Increased expression of phosphatases is associated with the intracellular localization and dephosphorylation of ERK and is inhibited by the selective ERK inhibitor, U0126. In turn, regulation of phosphatase activity occurs via the ubiquitin-proteasome degradation pathway because treatment of cells with the proteasome inhibitor, Z-LLF-CHO, markedly promotes ERK dephosphorylation. These data provide direct evidence for ERK-mediated negative feedback due to regulation of phosphatase activity in undifferentiated granulosa cells.
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PMID:Phosphatase activation by epidermal growth factor family ligands regulates extracellular regulated kinase signaling in undifferentiated hen granulosa cells. 1684 May 44

With the rapid development of high-throughput techniques for identifying novel specific molecular targets in human cancer over the past few years, attention to targeted cancer therapy has dramatically increased. The term "targeted cancer therapy" refers to a new generation of drugs designed to interfere with a specific molecular target that is believed to play a critical role in tumor growth or progression, is not expressed significantly in normal cells, and is correlated with clinical outcome. There has been a rapid increase in the identification of targets that have potential therapeutic application. The clinical success of the small-molecule kinase inhibitor imatinib mesylate in chronic myeloid leukemia and gastrointestinal stromal tumors has accelerated the development of a new era of molecular targeted cancer therapy. The number of agents under preclinical and clinical investigation has grown accordingly. This emphasis on molecular biology and genetics has also resulted in significant changes in the treatment of gynecologic cancers. Several promising drugs targeting tyrosine kinases (EGFR and Her-2/Neu), mTOR, Raf kinase, proteasome, and histone deacetylases, as well as drugs affecting apoptosis and mitosis, are under development for clinical application. However, some clinical trials of p53 gene therapies and farnesyl transferase inhibitors have had limited success. In this review, we will focus on potential novel targets in gynecologic cancer and the development of targeted therapy and its clinical applications in gynecologic cancer.
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PMID:Targeted therapies in gynecologic cancers. 1684 24

The molecular chaperone heat shock protein 90 (HSP90) has emerged as an exciting molecular target for cancer therapy. It operates as part of a multichaperone complex and is essential for the conformation, stability, and function of several key oncogenic client proteins such as mutant p53, ERBB2, B-RAF, C-RAF, and CDK4. The HSP90-based chaperone machine is driven by the hydrolysis of ATP and ADP/ATP nucleotide exchange. Many of the inhibitors of HSP90 interrupt the intrinsic ATPase activity, causing degradation of the client proteins via the ubiquitin-proteasome pathway. The first-in-class HSP90 inhibitor in clinical trials is the geldanamycin analog, 17-allylamino, 17-demethoxygeldanamycin (17-AAG). The results that have emerged from these trials have been encouraging, with stable disease observed in two melanoma patients. Pharmacodynamic endpoints, such as induction of HSP70 and downregulation of C-RAF and CDK4 in peripheral blood mononuclear cells and tumor biopsies from treated patients, provided evidence of HSP90 inhibition at well-tolerated doses. The toxicity of 17-AAG has been mild. Several preclinical studies have shown that 17-AAG may enhance the efficacy of a variety of chemotherapeutic agents. Phase II clinical trials in various cancers have been initiated as well as Phase I trials of combined therapy with 17-AAG. However, there are several limitations with 17-AAG such as solubility, stability, and hepatotoxicity. Thus, it is not surprising that new HSP90 agents are under development against this novel target for cancer therapy and several show promise.
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PMID:Inhibitors of the HSP90 molecular chaperone: current status. 1686 Jun 62


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