EC:2.7.11.24 - FACTA Search

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)

Benzo[a]pyrene [B(a)P], a potent procarcinogen found in combustion products such as diesel exhaust and cigarette smoke, has been recently shown to activate the c-Jun NH(2)-terminal kinase 1 (JNK1) and induce caspase-3-mediated apoptosis in Hepa1c1c7 cells. However, the molecules of the signaling pathway that control the mitogen-activated protein kinase cascades induced by B(a)P and the interaction between those and apoptosis by B(a)P have not been well defined. We report here that B(a)P promoted Cdc42/Rac1, p21-activated kinase 1 (PAK1), and JNK1 activities in 293T and HeLa cells. Moreover, alpha-PAK-interacting exchange factor (alpha PIX) mRNA and its protein expression were upregulated by B(a)P. While overexpression of an active mutant of alpha PIX (DeltaCH) facilitated B(a)P-induced activation of Cdc42/Rac1, PAK1, and JNK1, overexpression of mutated alphaPIX (L383R, L384S), which lacks guanine nucleotide exchange factor activity, SH3 domain-deleted alphaPIX (Delta SH3), which lacks the ability to bind PAK, kinase-negative PAK1 (K299R), and kinase-negative SEK1 (K220A, K224L) inhibited B(a)P-triggered JNK1 activation. Interestingly, overexpression of alphaPIX (Delta CH) and a catalytically active mutant PAK1 (T423E) accelerated B(a)P-induced apoptosis in HeLa cells, whereas alphaPIX (Delta SH3), PAK1 (K299R), and SEK 1 (K220A, K224L) inhibited B(a)P-initiated apoptosis. Finally, a preferential caspase inhibitor, Z-Asp-CH2-DCB, strongly blocked the alphaPIX (Delta CH)-enhanced apoptosis in cells treated with B(a)P but did not block PAK1/JNK1 activation. Taken together, these results indicate that alphaPIX plays a crucial role in B(a)P-induced apoptosis through activation of the JNK1 pathway kinases.
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PMID:Involvement of alpha-PAK-interacting exchange factor in the PAK1-c-Jun NH(2)-terminal kinase 1 activation and apoptosis induced by benzo[a]pyrene. 1156 64

Rapid proliferation of atypical megakaryoblasts is a characteristic of megakaryoblastic leukemia. Cells from patients with this disorder and cell lines established from this type of leukemia showed the presence of gelsolin but the absence of scinderin expression, 2 filamentous actin-severing proteins present in normal megakaryocytes and platelets. Vector-mediated expression of scinderin in the megakaryoblastic cell line MEG-01 induced a decrease in both F-actin and gelsolin. This was accompanied by increased Rac2 expression and by activation of the PAK/MEKK.SEK/JNK/c-jun, c-fos transduction pathway. The Raf/MEK/ERK pathway was also activated in these cells. Transduction pathway activation was followed by cell differentiation, polyploidization, maturation, and apoptosis with release of platelet-like particles. Particles expressed surface CD41a antigen (glycoprotein IIb/IIIa or fibrinogen receptor), had dense bodies, high-affinity serotonin transport, and circular array of microtubules. Treatment of particles with thrombin induced serotonin release and aggregation that was blocked by CD41a antibodies. PAC-1 antibodies also blocked aggregation. Exposure of cells to PD98059, a blocker of MEK, inhibited antigen CD41a expression, increases in cell volume, and number of protoplasmic extensions. Cell proliferation and cell ability to form tumors in nude mice were also inhibited by the expression of scinderin. MEG-01 cells expressing scinderin had the same fate in vivo as in culture. Thus, when injected into nude mice, they entered apoptosis and released platelet-like particles. The lack of scinderin expression in megakaryoblastic leukemia cells seems to be responsible for their inability to enter into differentiation and maturation pathways characteristic of their normal counterparts.
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PMID:Expression of scinderin in megakaryoblastic leukemia cells induces differentiation, maturation, and apoptosis with release of plateletlike particles and inhibits proliferation and tumorigenesis. 1156 9

The protein serine-threonine kinase Akt mediates cell survival signaling initiated by various growth-promoting factors such as insulin. Here we report that SEK1 is a target of Akt in intact cells. Insulin inhibited the anisomycin-induced stimulation of both endogenous SEK1 and its substrate c-Jun N-terminal kinase (JNK), but not that of the upstream kinase MEKK1, in 293T cells. The inhibitory action of insulin on SEK1 or JNK1 activation was prevented by the phosphatidylinositol 3-kinase inhibitor LY294002. Expression of a constitutively active form of Akt also inhibited both SEK1 and JNK1 activation, but not that of MEKK1, in transfected 293T cells. Co-immunoprecipitation analysis revealed that endogenous Akt physically interacted with endogenous SEK1 in cells and that this interaction was promoted by insulin. In vitro and in vivo (32)P labeling indicated that Akt phosphorylated SEK1 on serine 78. The SEK1 mutant SEK1(S78A) was resistant to Akt-induced inhibition. Finally, activated Akt inhibited SEK1-mediated apoptosis, and this effect of Akt was prevented by overexpression of SEK(S78A). Taken together, these results suggest that Akt suppresses stress-activated signaling by targeting SEK1.
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PMID:Akt (protein kinase B) negatively regulates SEK1 by means of protein phosphorylation. 1170 64

Programmed cell death, or apoptosis, has emerged as a common mechanism by which cells respond to chemotherapeutic drugs. However, the signaling mechanisms that mediate drug-induced apoptosis are still widely unknown. Mitogen-activated protein kinase (MAPK) signaling cascades trigger stimulus-specific responses in cells with ERK being associated with proliferation and differentiation, and JNK/SAPK and p38 mediating stress and apoptotic responses. Here, we found that mitoxantrone and anisomycin stimulated a dose- and time-dependent induction of JNK/SAPK activity, and to a lesser extent p38 activity, that preceded the appearance of apoptosis as measured by internucleosomal DNA fragmentation. These compounds did not induce ERK activity. We further demonstrated that p38 activity was not involved in the induction of apoptosis since the use of the p38 inhibitor, SB203580, did not prevent drug-induced apoptotic DNA fragmentation. Additionally, direct inhibition of JNK/SAPK signaling through the use of dominant-negative MKK4/SEK1 (SEK-AL) inhibited mitoxantrone- and anisomycin-induced apoptosis. These results suggest that mitoxantrone- and anisomycin-induced apoptosis is dependent on JNK/SAPK, but not p38, activity.
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PMID:c-Jun N-terminal kinase/stress-activated protein kinase (JNK/SAPK) is required for mitoxantrone- and anisomycin-induced apoptosis in HL-60 cells. 1173 4

The mitogen-activated protein kinase (MAPK) pathway is a highly conserved signaling cascade that converts extracellular signals into various outputs. In Caenorhabditis elegans, asymmetric expression of the candidate odorant receptor STR-2 in either the left or the right of two bilaterally symmetrical olfactory AWC neurons is regulated by axon contact and Ca2+ signaling. We show that the MAPK kinase (MAPKK) SEK-1 is required for asymmetric expression in AWC neurons. Genetic and biochemical analyses reveal that SEK-1 functions in a pathway downstream of UNC-43 and NSY-1, Ca2+/calmodulin-dependent protein kinase II (CaMKII) and MAPK kinase kinase (MAPKKK), respectively. Thus, the NSY-1-SEK-1-MAPK cascade is activated by Ca2+ signaling through CaMKII and establishes asymmetric cell fate decision during neuronal development.
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PMID:SEK-1 MAPKK mediates Ca2+ signaling to determine neuronal asymmetric development in Caenorhabditis elegans. 1175 72

The stress-activated protein kinase (SAPK) pathways represent phosphorylation cascades that convey pro-apoptotic signals. The relevant inputs include Ras proteins as well as exposure of cells to ultraviolet light, tumor-necrosis factor, and other stress-related inputs. The mitogen-activated protein kinase kinase (MAPKK) homolog MAP2K4 (MKK4, SEK, JNKK1) is a centrally-placed mediator of the SAPK pathways. MAP2K4 mutations or homozygous deletions are reported in about 5% of a wide variety of tumor types. The exception is breast cancer, where genetic inactivation in 3 of 22 (15%) cell lines had suggested that the mutational involvement of MAP2K4 might be accentuated in this tumor type. This finding might have represented an important difference, or solely a chance numerical variation. To address this question, we studied an independent panel of 20 breast cancer cell lines and xenografts for MAP2K4 alterations. We found a splice acceptor mutation accompanied by loss of the other allele in the cell line MPE600. This was the sole alteration in this panel (5% of tumors). These data seem to re-establish a rather consistent rate of genetic inactivation of MAP2K4 among most tumor types, including breast cancer. The genetic evaluation of other mediators of the SAPK pathways might offer insight into a promising, but as yet poorly defined, tumor-suppressive system.
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PMID:Mutation rate of MAP2K4/MKK4 in breast carcinoma. 1175 10

The role of ERK and Jun N-terminal kinase (JNK) in basal- and GnRH-stimulated LHbeta-promoter activity was examined in the gonadotroph cell line LbetaT-2. GnRH agonist (GnRH-A) stimulates the MAPK cascades ERK, JNK, and p38MAPK, with a peak at 7 min for ERK and at 60 min for JNK and p38MAPK. The rat glycoprotein hormone LHbeta-subunit promoter, linked to the chloramphenicol acetyl transferase (CAT) reporter gene, was used to follow its activation. Addition of GnRH-A (10 nM) to LbetaT-2 cells resulted in a 6-fold increase in LHbeta-CAT activity at 8 h, which was markedly reduced by a GnRH antagonist. The PKC activator 12-O-tetradecanoylphorbol-13-acetate (TPA), but not the Ca(2+) ionophore ionomycin, stimulated LHbeta-CAT activity. Addition of GnRH-A and TPA together did not produce an additive response. Down-regulation of PKC, but not removal of Ca(2+), abolished the GnRH-A and the TPA response. Cotransfection of the LHbeta-promoter and the constitutively active form of Raf-1 stimulated basal and GnRH-A-induced LHbeta-CAT activity. The dominant negative forms of the ERK cascade members Ras, Raf-1, and MAPK/ERK kinase (MEK) markedly reduced basal and GnRH-A-induced LHbeta-CAT activity, Similar results were obtained with the MEK inhibitor PD 098059. Cotransfection of the LHbeta-promoter and the constitutively active CDC42 stimulated basal and GnRH-A-induced LHbeta-CAT activity. The dominant negative forms of the JNK cascade members Rac, CDC42, and SEK markedly diminished basal and GnRH-A-induced LHbeta-CAT activity. Interestingly, the constitutively active form of c-Src stimulated the basal and the GnRH-A response, whereas the dominant negative form of c-Src, or the c-Src inhibitor PP1 diminished basal and the GnRH-A response. We conclude that ERK and JNK are involved in basal and GnRH-A stimulation of LHbeta-CAT activity. c-Src participates also in LHbeta-promoter activation by a mechanism which might be linked to ERK and JNK activation.
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PMID:Activation of MAPK cascades by GnRH: ERK and Jun N-terminal kinase are involved in basal and GnRH-stimulated activity of the glycoprotein hormone LHbeta-subunit promoter. 1186 27

Mitogen-activated protein kinases (MAPKs) have been implicated as regulators of differentiation. The biological effect of MAPK signaling in the nucleus is achieved by signal-responsive transcription factors. Here we have investigated MAPK signaling and activation of AP-1 transcription factors in P19 embryonal carcinoma cells undergoing cardiomyocyte differentiation. We show that aggregation and Me(2)SO treatment, which trigger the differentiation response, result in sustained activation of JNK1, p38, and ERK1/2 MAPKs and acquisition of AP-1 DNA binding activity. The induced AP-1 activity consists of c-Jun, JunD, and Fra-2 proteins and is accompanied with the increased expression of these proteins. JNK is involved in c-Jun phosphorylation, whereas ERK and p38 activities are essential for maximal c-Jun and Fra-2 expression, and AP-1 DNA binding activity. While the inhibition of ERK can partially prevent the formation of beating cardiomyocytes, the activity of p38 is absolutely required for the differentiation. Expression of dominant negative c-Jun(bZIP) in P19 cells can also inhibit the differentiation response. Surprisingly, however, expression of dominant negative SEK or JNK causes an inhibition of P19 cell proliferation. Taken together, the results show that ERK, JNK, p38, and AP-1 are activated in a coordinated and sustained manner, and contribute to proliferation and cardiomyocyte differentiation of P19 cells.
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PMID:Mitogen-activated protein kinases and activator protein 1 are required for proliferation and cardiomyocyte differentiation of P19 embryonal carcinoma cells. 1188 86

In this study, we investigated the effects of proteasome inhibibors (MG132 and lactacystin) on interleukin (IL)-8 induction. In human epithelial A549 cells, MG132 and lactacystin induced IL-8 release within the range of 0.1-30 microM. The effect of MG132 resulted from IL-8 gene transcription and was blocked by PD 98059, but was unaffected by GF109203X, Ro 31-8220, or SB 203580. Mutational analysis of the 5' flanking region of the IL-8 gene revealed that activator protein (AP)-1-binding element, but not that element responsive to nuclear factor (NF)-IL-6 or NF-kappaB, was necessary for MG132 stimulation. Consistent with this, MG132 and lactacystin increased the DNA-binding and reporter activities of AP-1, but reduced cytokine-elicited kappaB activation. Moreover, AP-1 stimulation was associated with increased extracellular signal-related kinase (ERK), mitogen-activated protein/ERK kinase (MEK), and c-Jun N-terminal kinase (JNK) phosphorylation, whereas IL-8 activity was sensitive to the dominant-negative mutants of JNK1, JNK2, SEK, ASK, ERK2, and Ras, but not those of MEKK1, TAK, and p38 mitogen-activated protein kinase. In addition, activations of the IL-8 gene and AP-1 by MG132 and lactacystin were inhibited by GSH and NAC. Herein we present a novel action of proteasome inhibitors, possibly through ROS production, of targeting the upstream signaling molecules, ERK and JNK, which leads to AP-1 activation and IL-8 gene expression.
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PMID:Proteasome inhibitors stimulate interleukin-8 expression via Ras and apoptosis signal-regulating kinase-dependent extracellular signal-related kinase and c-Jun N-terminal kinase activation. 1215 16

Pyrrolidine dithiocarbamate (PDTC) is known to induce cell death by the stimulation of intracellular zinc transport and subsequent modulation of nuclear factor-kappaB (NF-kappaB) activity. Zinc is a signaling messenger that is released by neuronal activity at many central excitatory synapses. Excessive synaptic release of zinc followed by entry into vulnerable neurons contributes to severe neuronal cell death. In the present study, we explored how PDTC modulates intracellular signal transduction pathways, leading to neuronal cell death. The exposure of immortalized embryonic hippocampal cells (H19-7) to PDTC within the range of 1-100 microM caused cell death in a dose-dependent manner. During the cell death, NF-kappaB activity increased in response to PDTC, and this activity corresponded well with the increase of intracellular free zinc levels, implying that the activation of NF-kappaB transmits the cell death signals of PDTC. Furthermore, PDTC caused the activation of IkappaB kinase (IKK), casein kinase 2 (CK2), phosphatidylinositol 3-kinase (PI-3K), and Akt, as well as mitogen-activated protein kinases (MAPKs), such as extracellular signal-regulated kinase (ERK) and c-Jun N-terminal kinase (JNK), but not p38 kinase. The blockade of PI-3K, JNK, and CK2 pathways resulted in a remarkable suppression of PDTC-induced cell death and also the activation of IKK, which subsequently led to a decrease of IkappaB phosphorylation. Although the overexpression of dominant-negative SEK in a transient manner did not inhibit the activation of Akt by PDTC, the transfection of kinase-inactive Akt mutants did cause a remarkable blockade of JNK activation, implying that Akt is present upstream of JNK in the PDTC-signaling pathways. Moreover, whereas selective CK2 inhibitors suppressed PDTC-induced JNK activation, the inhibition of JNK did not affect CK2 activity, suggesting that CK2 is directly related to the regulation of cell viability by PDTC and that the CK2-JNK pathway could be a downstream target of PDTC. Taken together, our results suggest that PDTC-mediated accumulation of intracellular zinc ions may affect cell viability by modulating several intracellular signaling pathways in neuronal hippocampal progenitor cells.
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PMID:Pyrrolidine dithiocarbamate-induced neuronal cell death is mediated by Akt, casein kinase 2, c-Jun N-terminal kinase, and IkappaB kinase in embryonic hippocampal progenitor cells. 1258 27

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