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)

Pyrogallol (PG) as a polyphenol compound can generate superoxide anion (O(2)(-)). Here, we investigated the effects of PG and/or MAPK inhibitors on Calu-6 lung cells in relation to cell growth, cell death, reactive oxygen species (ROS) and GSH levels. PG inhibited the growth of Calu-6 cells and induced apoptosis, which was accompanied by the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)). While general ROS were decreased in PG-treated Calu-6 cells at 72h, intracellular O(2)(-) level including mitochondrial O(2)(-) was increased. PG also increased GSH depleted cell number in Calu-6 cells. MEK inhibitor slightly prevented cell growth inhibition, cell death and GSH depletion by PG. JNK inhibitor did not affect cell growth, cell death, MMP (DeltaPsi(m)) loss, ROS level and GSH deletion in PG-treated Calu-6 cells but p38 inhibitor mildly enhanced MMP (DeltaPsi(m)) loss, O(2)(-) level and GSH depletion in these cells. Conclusively, MEK inhibitor slightly prevented growth inhibition and death in PG-treated Calu-6 cells. Growth inhibition and death in Calu-6 cells by PG and/or MAPK inhibitors were partially related to O(2)(-) level and GSH content changes.
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PMID:The effects of MAPK inhibitors on pyrogallol-treated Calu-6 lung cancer cells in relation to cell growth, reactive oxygen species and glutathione. 1983 63

Arsenic trioxide (ATO) can regulate many biological functions such as apoptosis and differentiation. We recently demonstrated that ATO-induced apoptosis in Calu-6 lung cancer cells is correlated with glutathione (GSH) content. Here, the effects of ATO and/or mitogen-activated protein kinase (MAPK) inhibitors on Calu-6 cells were investigated in relation to cell growth, cell death, reactive oxygen species (ROS) and GSH levels. Treatment with ATO inhibited the growth of the Calu-6 cells at 72 hours. ATO induced apoptosis, which was accompanied by the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)). While general nonspecific ROS decreased in the ATO-treated Calu-6 cells, the intracellular superoxide anion (O(2)(-)) level including mitochondrial O(2)(-) increased. ATO also induced GSH depletion in the Calu-6 cells. The treatment with MAP kinase kinase (MEK), c-Jun N-terminal kinase (JNK) and p38 inhibitors intensified the cell growth inhibition, cell death, MMP (DeltaPsi(m)) loss, and GSH depletion in the ATO-treated Calu-6 cells. In addition, the JNK and p38 inhibitors significantly increased the ROS levels including O(2)(-) in the ATO-treated Calu-6 cells. In conclusion, all the MAPK inhibitors slightly intensify cell death in the ATO-treated Calu-6 cells and the changes of ROS and GSH brought about by ATO and/or MAPK inhibitor treatment partially influence cell growth and death in Calu-6 cells.
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PMID:The effect of MAPK inhibitors on arsenic trioxide-treated Calu-6 lung cells in relation to cell death, ROS and GSH levels. 1984 17

MG132 as a proteasome inhibitor can induce apoptotic cell death through formation of reactive oxygen species (ROS). In this study, we investigated the effects of MAPK (MEK, JNK or p38) inhibitors on MG132-induced HeLa cell death in relation to ROS and glutathione (GSH). MG132-induced cell growth inhibition and apoptosis in HeLa cells, which was accompanied by the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)). MG132 increased ROS level including O(2)(*-) and GSH depleted cell number in HeLa cells. All the MAPK inhibitors slightly enhanced the cell growth inhibition but did not intensify apoptosis in MG132-treated HeLa cells. Each MAPK inhibitor differentially changed the levels of ROS and GSH content in MG132-treated cells. In conclusion, MAPK inhibitors partially influence apoptosis, ROS and GSH levels in MG132-treated HeLa cells.
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PMID:The effects of MAPK inhibitors on a proteasome inhibitor, MG132-induced HeLa cell death in relation to reactive oxygen species and glutathione. 1985 51

Biological functions of tissue kallikrein (TK, KLK1) are mainly mediated by kinin generation and subsequent kinin B2 receptor activation. In this study, we investigated the potential role of TK and its signaling pathways in cultured human keratinocyte migration and in a rat skin wound healing model. Herein, we show that TK promoted cell migration and proliferation in a concentration- and time-dependent manner. Inactive TK or kinin had no significant effect on cell migration. Interestingly, cell migration induced by active TK was not blocked by icatibant or L-NAME, indicating an event independent of kinin B2 receptor and nitric oxide formation. TK's stimulatory effect on cell migration was inhibited by small interfering RNA for proteinase-activated receptor 1 (PAR(1)), and by PAR(1) inhibitor. TK-induced migration was associated with increased phosphorylation of epidermal growth factor receptor (EGFR) and extracellular signal-regulated kinase (ERK), which was blocked by inhibition of protein kinase C (PKC), Src, EGFR and ERK. TK-induced cell migration and EGFR phosphorylation were blocked by metalloproteinase (MMP) inhibitor, heparin, and antibodies against EGFR external domain, heparin-binding EGF-like growth factor (HB-EGF) and amphiregulin (AR). Local application of TK promoted skin wound healing in rats, whereas icatibant and EGFR inhibitor blocked TK's effect. Skin wound healing was further delayed by aprotinin and neutralizing TK antibody. This study demonstrates a novel role of TK in skin wound healing and uncovers new signaling pathways mediated by TK in promoting keratinocyte migration through activation of the PAR(1)-PKC-Src-MMP pathway and HB-EGF/AR shedding-dependent EGFR transactivation.
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PMID:A novel signaling pathway of tissue kallikrein in promoting keratinocyte migration: activation of proteinase-activated receptor 1 and epidermal growth factor receptor. 1987 74

Gastrin is a gastrointestinal peptide hormone, secreted by the gastric G cells and can exist as a fully processed amidated form (G17) or as unprocessed forms. All forms of gastrin possess trophic properties towards the gastrointestinal mucosa. An understanding of the signaling pathways involved is important to design therapeutic approaches to target gastrin-mediated cellular events. The studies described here were designed to identify the signaling pathways by which amidated gastrin (G17) mediates cancer cell migration. These studies indicated a time- and dose-dependent increase in gastric cancer cell migration after G17 stimulation, involving cholecystokinin 2 receptor. G17-induced migration was preceded by activation of MAPK pathways and was antagonized after pretreatment with SP600125, a pharmacological inhibitor of c-Jun-NH(2)-terminal kinase (JNK) pathway. Knockdown of endogenous JNK1 expression via small interference RNA (JNK1-siRNA) inhibited G17-induced phosphorylation of c-Jun and migration, and overexpression of wild-type JNK1 or constitutive active JNK1 promoted G17-induced migration. Studies designed to identify the MAPK kinase kinase member mediating JNK activation indicated the involvement of mixed lineage kinase-3 (MLK3), which was transiently activated upon G17 treatment. Inhibition of MLK3 pathway via a pan-MLK inhibitor or knockdown of MLK3 expression by MLK3-siRNA antagonized G17-induced migration. Incubation with G17 also resulted in an induction of matrix metalloproteinase 7 promoter activity, which is known to mediate migration and invasion pathways in cancer cells. Modulation of MLK3, JNK1, and c-Jun pathways modulated G17-induced matrix metalloproteinase 7 promoter activation. These studies indicate that the MLK3/JNK1 axis mediates G17-induced gastric cancer cell migration, which can be targeted for designing novel therapeutic strategies for treating gastric malignancies.
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PMID:Mixed lineage kinase-3/JNK1 axis promotes migration of human gastric cancer cells following gastrin stimulation. 2015 Jan 85

Dihydroartemisinin (DHA), a semi-synthetic derivative of artemisinin, has recently been shown to possess antitumor activity in various cancer cells. However, the effects of DHA in preventing the invasion of cancer cells have not been studied. In the present study, we investigated the inhibitory effects of DHA on tumor invasion and migration and the possible mechanisms involved using human fibrosarcoma HT-1080 cells. DHA reduced PMA-induced activation of MMP-9 and MMP-2 and further inhibited cell invasion and migration. DHA suppressed PMA-enhanced expression of MMP-9 protein, mRNA, and transcriptional activity through suppressing NF-kappaB and AP-1 activation without changing the level of tissue inhibitor of metalloproteinase (TIMP)-1. DHA also reduced PMA-enhanced MMP-2 expression by suppressing membrane-type 1 MMP (MT1-MMP), but did not alter TIMP-2 levels. DHA-inhibited PMA-induced NF-kappaB and c-Jun nuclear translocation, which are upstream of PMA-induced MMP-9 expression and invasion. Furthermore, DHA strongly repressed the PMA-induced phosphorylation of Raf/ERK and JNK, which are dependent on the PKCalpha pathway. In conclusion, we demonstrated that the anti-invasive effects of DHA may occur through inhibition of PKCalpha/Raf/ERK and JNK phosphorylation and reduction of NF-kappaB and AP-1 activation, leading to down-regulation of MMP-9 expression. The data presented show that DHA is an effective anti-metastatic agent that functions by down-regulating MMP-9 gene expression.
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PMID:Suppression of PMA-induced tumor cell invasion by dihydroartemisinin via inhibition of PKCalpha/Raf/MAPKs and NF-kappaB/AP-1-dependent mechanisms. 2015 19

Pyrogallol (PG) induces apoptosis in several types of cells mediated by superoxide anion (O(2*-)). Here, we investigated the effects of PG and/or MAPK (MEK, JNK, and p38) inhibitors on the changes in cell growth, cell death, reactive oxygen species (ROS), and GSH levels in As4.1 juxtaglomerular (JG) cells. PG inhibited the growth of As4.1 cells. It also induced apoptosis and the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)) and increased the level of p53 protein. Intracellular O2(*-) level was increased in PG-treated As4.1 cells. PG also increased the number of GSH deleted cells in As4.1 cells. All the MAPK inhibitors significantly attenuated the growth inhibition and death mediated by PG. They decreased the levels of p53 protein and MMP (DeltaPsi(m)) loss in PG-treated As4.1 cells. They also reduced O2(*-) level and GSH-depleted cell number in these cells. In conclusion, MAPK inhibitors attenuated As4.1 cell growth inhibition and death mediated by PG treatment. The changes in O2(*-) and GSH levels by PG and/or MAPK inhibitors appeared to affect the growth and death of As4.1 cells.
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PMID:Pyrogallol-induced As4.1 juxtaglomerular cell death is attenuated by MAPK inhibitors via preventing GSH depletion. 2019 Dec 65

Resistance to drug treatments underlies the high lethality of pancreatic ductal adenocarcinoma. Along with others, we have recently identified that proteasome inhibition is a promising therapeutic option in this highly refractory disease. The pleiotropic effects of proteasome inhibition include the activation of apoptotic signaling pathways and also antiapoptotic signaling pathways such as EGFR, AKT and the MAP kinases that reduce the apoptotic potential of this class of drug. In this study, we sought to determine the mechanism behind the activation of EGFR in response to proteasome inhibition in pancreatic cancer cells. We found that the second-generation proteasome inhibitor NPI-0052 induced the mRNA transcription of several EGFR family ligands (EGF, HB-EGF and epiregulin), however only increases in HB-EGF were detected at the protein level. Using both pharmacological inhibitors and lentiviral-mediated shRNA knockdown of EGFR ligand expression, we discovered that ligand cleavage by MMP/ADAMs and HB-EGF expression is required for activation of EGFR in response to proteasome inhibition. Furthermore, we discover that induction of HB-EGF is dependent on reactive oxygen species and p38-MAPK signaling but not ERK and that the transcription factor SP-1 is involved in NPI-0052-induced HB-EGF transcription. Together, these results indicate that stress signaling leading to induction of HB-EGF expression and increases in MMP/ADAM-dependent HB-EGF cleavage are responsible for proteasome inhibitor-induced activation of EGFR in pancreatic cancer cells.
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PMID:Activation of EGFR by proteasome inhibition requires HB-EGF in pancreatic cancer cells. 2020 58

Matrix metalloproteinase-9 (MMP-9) strongly influences tumor development and metastasis. Using resistant (rMCF-7) and sensitive (sMCF-7) breast cancer lines we investigated the role of MMP-9 in cell migration (CM) and tubular network (TN) formation, two processes implied in tumor growth and metastasis. Our data demonstrate that MMP-9 which is critical for CM is necessary but not sufficient for TN formation and suggest a link between MDR1/P-gp and constitutive MMP-9. Both TN formation and CM are dependent on PKC and ERK1/2 pathways. This study reinforces the logic of combining therefore MMP inhibitors in cancer therapy, especially in patients with chemoresistance and invasion/metastasis.
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PMID:Matrix metalloproteinase-9 is required for tubular network formation and migration of resistant breast cancer cells MCF-7 through PKC and ERK1/2 signalling pathways. 2035 13

MG132, as a proteasome inhibitor, can induce apoptotic cell death through formation of reactive oxygen species (ROS). In this study, we investigated the effects of MAPK (MEK, JNK, and p38) inhibitors on MG132-treated A549 lung cancer cells in relation to cell growth, cell death, ROS, and glutathione (GSH) levels. Treatment with 10 microM MG132 inhibited the growth of A549 cells at 24 h. MG132 also induced apoptosis, which was accompanied by the loss of mitochondrial membrane potential (MMP; deltapsi(m)). ROS were not increased in MG132-treated A549 cells. MG132 increased GSH-depleted cell numbers and decreased GSH levels. MEK and JNK inhibitors did not strongly affect cell growth, cell death, ROS, and GSH levels in MG132-treated A549 cells. In contrast, p38 inhibitor reduced cell growth inhibition, apoptosis, and MMP (deltapsi(m)) loss by MG132. However, p38 inhibitor did not change ROS level and GSH content. In conclusion, MG132 inhibited the growth of A549 cells via apoptosis without formation of ROS. Treatment with p38 inhibitor rescued some cells from MG132-induced apotposis, which was not affected by ROS and GSH level changes.
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PMID:The attenuation of MG132, a proteasome inhibitor, induced A549 lung cancer cell death by p38 inhibitor in ROS-independent manner. 2037 32

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