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: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MEK kinase 1 (MEKK1) induces apoptosis through the activation of caspases. The mechanism for MEKK1-induced apoptosis involves caspase-mediated cleavage of MEKK1, releasing a pro-apoptotic 91 kDa kinase fragment that serves to further amplify caspase activation in a feedback loop. Both cleavage of MEKK1 and increased expression of death receptor 4 (DR4, TRAILR1) and death receptor 5 (DR5, TRAILR2) occur following exposure of cells to genotoxins. Overexpression of kinase inactive MEKK1 inhibits MEKK1-mediated apoptosis and effectively blocks death receptor upregulation following etoposide treatment. Herein, we investigate the role of death receptor activation and the ability of AKT/PKB (AKT) to inhibit cell death in MEKK1-induced apoptosis. We show that by preventing DR4 and DR5 activation through expression of decoy receptor 1 (DcR1) and dominant negative FADD, we inhibit MEKK1-induced apoptosis. Furthermore, expression of 91 kDa MEKK1 increased DR4 and FAS mRNA and protein levels. MEKK1-induced apoptosis is amplified by blocking PI-3 kinase activation and overexpression of AKT blocked both MEKK1-induced apoptosis and caspase activation. AKT overexpression also prevented the cleavage of endogenous MEKK1 by genotoxins. AKT did not, however, block MEKK1-induced JNK activation, showing that regulation of the JNK pathway by MEKK1 is independent of its role in regulation of apoptosis. Thus, MEKK1-induced apoptosis requires TRAIL death receptor activation and is blocked by AKT through inhibition of MEKK1 cleavage.
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PMID:MEKK1-induced apoptosis requires TRAIL death receptor activation and is inhibited by AKT/PKB through inhibition of MEKK1 cleavage. 1224 63

Using two agonistic monoclonal antibodies specific for each death receptor of TRAIL, 2E12 (anti-human DR4) and TRA-8 (anti-human DR5), we examined the signal transduction of the death receptors in combination with or without chemotherapy agents such as Adriamycin (doxorubicin hydrochloride) and Cisplatin. Our results demonstrated that chemotherapy agents were able to enhance apoptosis-inducing activity of these antibodies against several different types of tumor cell lines through enhanced caspase activation. The combination of the antibodies and chemotherapy agents led to a synergistical activation of the JNK/p38 MAP kinase, which was mediated by MKK4. The combination also caused an increased release of cytochrome c and Smac/DIABLO from mitochondria in parallel with the profound loss of mitochondrial membrane potential. These results suggest that the enhanced activation of the JNK/p38 kinase and the mitochondrial apoptosis pathways play a crucial role in synergistic induction of the death receptor-mediated apoptosis by chemotherapy agents. Thus, the simultaneous targeting of cell surface death receptors with agonistic antibodies and the intracellular JNK/p38 and the mitochondrial death pathways with chemotherapy agents would enhance the efficacy and selectivity of both agents in cancer therapy.
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PMID:Synergistic induction of tumor cell apoptosis by death receptor antibody and chemotherapy agent through JNK/p38 and mitochondrial death pathway. 1267 8

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is known to trigger apoptosis in many malignant cells. Whereas cancer cells are responsive to TRAIL-induced cell death when used alone or in combination with other agents, normal cells are known to be relatively less sensitive to the ligand, making it a desirable therapeutic compound to target a variety of cancers. TRAIL induces apoptosis through its interaction with its two proapoptotic death receptors (DRs), DR4 and DR5. In addition, it may also bind the decoy receptors (DcRs), DcR1 and DcR2, which lack an intracellular signaling domain, thus negatively regulating TRAIL-induced apoptosis. Previously, it has been shown that interleukin (IL)-8 is elevated in the ascites of patients with ovarian cancer. Therefore, we examined the role that IL-8 may play in modulating sensitivity to TRAIL-mediated apoptosis. We treated the TRAIL-sensitive cell line OVCAR3 with TRAIL over a period of time with or without pretreatment with IL-8. Here we show the novel findings that IL-8 blocks TRAIL-induced cell death and was able to turn the TRAIL-sensitive cell line into a TRAIL-resistant one. We hypothesized that decreased expression of DRs DR4 and DR5 may contribute to TRAIL resistance. Both reverse transcription-PCR and flow cytometry revealed a decrease in DR4 expression after pretreatment of OVCAR3 cells with IL-8. We have also shown that TRAIL was able to induce caspase-8 cleavage in these cells, whereas pretreatment with IL-8 blocked this caspase cleavage. Through array analysis and confirmation with other techniques, we have determined that IL-8 regulates the expression of a member of the mitogen-activated protein kinase superfamily, p38gamma. These findings provide important insights into the modulation of apoptosis by TRAIL and IL-8 in ovarian cancer. The data suggest a potentially important role of IL-8 in protecting ovarian cancer cells from TRAIL-mediated apoptosis and signify a new potential chemotherapeutic target to augment TRAIL therapy.
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PMID:Identification of interleukin 8 as an inhibitor of tumor necrosis factor-related apoptosis-inducing ligand-induced apoptosis in the ovarian carcinoma cell line OVCAR3. 1290 26

Proteasome inhibitors can resensitize cells that are resistant to tumor necrosis factor-related apoptotic-inducing ligand (TRAIL)-mediated apoptosis. However, the underlying mechanisms of this effect are unclear. To characterize the mechanisms of interaction between proteasome inhibitors and TRAIL protein, we evaluated the effects of combined treatment with the proteasome inhibitors bortezomib and MG132 and TRAIL protein on two TRAIL-resistant human colon cancer cell lines, DLD1-TRAIL/R and LOVO-TRAIL/R. Both bortezomib and MG132 in combination with TRAIL enhanced apoptotosis induction in these cells, as evidenced by enhanced cleavage of caspases 8, 9, and 3, Bid, poly(ADP-ribose) polymerase and by the release of cytochrome C and Smac. Subsequent studies showed that combined treatment with bortezomib or MG132 resulted in an increase of death receptor (DR) 5 and Bik at protein levels but had no effects on protein levels of DR4, Bax, Bak, Bcl-2, Bcl-XL or Flice-inhibitory protein (FLIP). Moreover, c-Jun N-terminal kinase (JNK) is activated by these proteasome inhibitors. Blocking JNK activation with the JNK inhibitor SP600125 attenuated DR5 increase, but enhancement of apoptosis induction and increase of Bik protein were not affected. However, bortezomib-mediated TRAIL sensitization was partially blocked by using siRNA to knockdown Bik. Thus, our data suggests that accumulation of Bik may be critical for proteasome inhibitor-mediated resensitization of TRAIL.
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PMID:Proteasome inhibitors-mediated TRAIL resensitization and Bik accumulation. 1608 82

AK-5, a rat histiocytoma, is rejected in about 70% of the syngeneic animals when injected subcutaneously. The sera from the tumor rejecting animals possess a potent factor, referred to as serum factor (SF) that induces apoptosis in AK-5 tumor cells. In the present study, we show that treatment with SF or JAK/STAT inhibitors AG490 and Piceatannol induces apoptosis to a similar extent in BC-8 (a single cell clone of AK-5) cells. Our results demonstrate downregulation of a transcription factor, STAT3, as a critical regulator of SF-induced apoptosis in BC-8 cells. SF treatment enhanced the activity of NFkappaB, another transcription factor that regulates both pro- and antiapoptotic genes. The enhanced NFkappaB activity resulted in the elevation of TRAIL and its receptor DR4, both known to induce apoptosis. Activation of death receptors in turn enhances caspase-8 activity and stimulates the downstream pathways regulating BC-8 cell apoptosis. SF induced apoptosis in BC-8 cells mediated through downregulation of STAT3 and elevated NFkappaB activity is abrogated by treatment with MAPK inhibitors-PD98059 and SB203580. Our studies therefore indicate that modulation of MAPK activity plays a central role in SF-induced death signaling pathways in BC-8 cells.
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PMID:Role of STAT3 and NFkappaB signaling in the serum factor-induced apoptosis in AK-5 cells. 1615 99

We established TRAIL-resistant MDA-231/TR cells from MDA-231 parent cells to understand the mechanism of TRAIL resistance in breast cancer cells. The selected TRAIL-resistant cells were cross-resistant to TNF-alpha/cycloheximide but remained sensitive to DNA-damage drugs such as oxaliplatin and etoposide. The expression levels of death receptors (DR4 and DR5), FADD, cIAP1, cIAP2, and Bcl-2 family were not changed in TRAIL-treated both cells. Significant down-regulation of XIAP and cFLIP was occurred after TRAIL treatment in MDA-231 cells whereas their levels were sustained in MDA-231/TR cells. TRAIL-mediated activation of ERK and JNK were also observed in parent MDA-231 cells but not in MDA-231/TR cells. However, TRAIL-resistant cells showed constitutive activation state after treatment with TRAIL. Pretreatment with PD98059 or transfection of MKK1-DN (dominant negative) expression vector attenuated TRAIL resistance in MDA-231/TR cells. Our findings provide the evidence that the sustained expression level of cFLIP(L) and XIAP protein and constitutive ERK activation may lead to acquired TRAIL resistance in breast cancer cells.
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PMID:Acquired TRAIL resistance in human breast cancer cells are caused by the sustained cFLIP(L) and XIAP protein levels and ERK activation. 1709 66

Bleomycin (BLM) has demonstrated potent activity in treating malignant lymphomas but its therapeutic efficacy is hampered by induction of lung fibrosis. This side effect is related to the ability of the drug to generate reactive oxygen species in lung cells. In the present study, we evaluated the consequences of deglycosylation of BLM in term of cytotoxic activity and generation of reactive oxygen species. When tested on U937 human lymphoma cells, both compounds generated a typical apoptotic phenotype. Cell death induction was associated with Bax oligomerization, dissipation of the mitochondrial membrane potential, release of cytochrome c, caspase activation, chromatin condensation and internucleosomal degradation. Whereas both reactive oxygen species and c-jun NH(2)-terminal kinase (JNK) inhibitors prevented BLM-induced U937 cell death, only JNK inhibition prevented deglycosylated BLM-mediated cell death. Both compounds induced clustering of TRAIL receptors (DR4 and DR5) and Fas at the cell surface but neither a chimeric soluble DR5 receptor that inhibits TRAIL-induced cell death nor a dominant negative version of the adaptor molecule Fas-associated death domain prevented BLM-induced cytotoxicity. These observations indicate that deglycosylation of BLM does not impair the ability of the drug to trigger cell death through activation of the intrinsic pathway but prevents induction of reactive oxygen species. This observation suggests that deglycosylated BLM could exhibit less toxic side effects and could warrant its use in clinic.
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PMID:Deglycosylated bleomycin induces apoptosis in lymphoma cell via c-jun NH2-terminal kinase but not reactive oxygen species. 1782 63

Although many human melanomas express the death receptors TRAIL-R2/DR5 or TRAIL-R1/DR4 on cell surface, they often exhibit resistance to exogenous TRAIL. One of the main contributors to TRAIL-resistance of melanoma cells is upregulation of transcription factors STAT3 and NF-kappaB that control the expression of antiapoptotic genes, including cFLIP and Bcl-xL. On the other hand, the JNK-cJun pathway is involved in the negative regulation of cFLIP (a caspase-8 inhibitor) expression. Our observations indicated that resveratrol, a polyphenolic phytoalexin, decreased STAT3 and NF-kappaB activation, while activating JNK-cJun that finally suppressed expression of cFLIP and Bcl-xL proteins and increased sensitivity to exogenous TRAIL in DR5-positive melanomas. Interestingly, resveratrol did not increase surface expression of DR5 in human melanomas, while gamma-irradiation or sodium arsenite treatment substantially upregulated DR5 expression. Hence, an initial increase in DR5 surface expression (either by gamma-irradiation or arsenite), and subsequent downregulation of antiapoptotic cFLIP and Bcl-xL (by resveratrol), appear to constitute an efficient approach to reactivate apoptotic death pathways in TRAIL-resistant human melanomas. In spite of partial suppression of mitochondrial function and the mitochondrial death pathway, melanoma cells still retain the potential to undergo the DR5-mediated, caspase-8-dependent death pathway that could be accelerated by either an increase in DR5 surface expression or suppression of cFLIP. Taken together, these results suggest that resveratrol, in combination with TRAIL, may have a significant efficacy in the treatment of human melanomas.
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PMID:Resveratrol sensitizes melanomas to TRAIL through modulation of antiapoptotic gene expression. 1822 23

Fatty acid synthase (FAS) is a key enzyme of hepatic lipogenesis responsible for the synthesis of long-chain saturated fatty acids. This enzyme is mainly regulated at the transcriptional level by nutrients and hormones. In particular, glucose, insulin, and T(3) increase FAS activity, whereas glucagon and saturated and polyunsaturated fatty acids decrease it. In the present study we show that, in liver, T(3) and insulin were able to activate FAS enzymatic activity, mRNA expression, and gene transcription. We localized the T(3) response element (TRE) that mediates the T(3) genomic effect, on the FAS promoter between -741 and -696 bp that mediates the T(3) genomic effect. We show that both T(3) and insulin regulate FAS transcription via this sequence. The TRE binds a TR/RXR heterodimer even in the absence of hormone, and this binding is increased in response to T(3) and/or insulin treatment. The use of H7, a serine/threonine kinase inhibitor, reveals that a phosphorylation mechanism is implicated in the transcriptional regulation of FAS in response to both hormones. Specifically, we show that T(3) is able to modulate FAS transcription via a nongenomic action targeting the TRE through the activation of a PI 3-kinase-ERK1/2-MAPK-dependent pathway. Insulin also targets the TRE sequence, probably via the activation of two parallel pathways: Ras/ERK1/2 MAPK and PI 3-kinase/Akt. Finally, our data suggest that the nongenomic actions of T(3) and insulin are probably common to several TREs, as we observed similar effects on a classical DR4 consensus sequence.
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PMID:Hepatic regulation of fatty acid synthase by insulin and T3: evidence for T3 genomic and nongenomic actions. 1868 35

Apoptosis or programmed cell-death is an important process involved in tissue homeostasis, development and a variety of immune responses.(1) The apoptotic program can be activated via transmembrane receptors stimulated by their cognate ligands. The presence of a well-conserved region of 80 amino acids in their intracellular tail, the Death-Domain (DD), has conferred those receptors the general name of "death receptors". Death receptors are a subfamily of the TNF receptor superfamily, which includes the TNF receptor-I (TNFR1), TRAMP, DR3/APO-3, TRAIL-receptor 1 (TRAIL-R1/DR4), TRAIL-receptor 2 (TRAIL-R1/DR5), DR6 and CD95 (Fas/Apo-1). The pro-apoptotic properties of the CD95 system have been extensively studied during the past decades. Nevertheless, CD95 has now emerged as an important activator of other major signaling pathways leading to a variety of phenotypes. In the last years, stimulation of CD95 has been described to activate the MAPK pathways p38, JNK and ERK. (2-6) CD95 has also been shown to activate the transcription factor NFkB. (67-9) However, the molecular mechanisms leading to activation of such pathways are not fully understood and their contribution to the final phenotype is still unclear. CD95 has been shown to be particularly involved in tumor cell invasion, (6) neurite sprouting and outgrowth,(5,10) as well as cell proliferation(11,12)--functions that lay to rest the general assumption of CD95 as a death receptor. In our group we have recently described a novel molecular link between CD95 and the phosphatydilinositol-3-kinase (PI3K) pathway in Glioblastoma multiforme. In the present review we will discuss the past and present knowledge of the CD95/CD95L system and its role in PI3K signaling.
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PMID:Tyrosine phosphorylation and CD95: a FAScinating switch. 1922 5


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