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: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

LKB1/STK11 is a multitasking tumour suppressor kinase. Germline inactivating mutations of the gene are responsible for the Peutz-Jeghers hereditary cancer syndrome. It is also somatically inactivated in approximately 30% of non-small-cell lung cancer (NSCLC). Here, we report that LKB1/KRAS mutant NSCLC cell lines are sensitive to the MEK inhibitor CI-1040 shown by a dose-dependent reduction in proliferation rate, whereas LKB1 and KRAS mutations alone do not confer similar sensitivity. We show that this subset of NSCLC is also sensitised to the mTOR inhibitor rapamycin. Importantly, the data suggest that LKB1/KRAS mutant NSCLCs are a genetically and functionally distinct subset and further suggest that this subset of lung cancers might afford an opportunity for exploitation of anti-MAPK/mTOR-targeted therapies.
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PMID:LKB1/KRAS mutant lung cancers constitute a genetic subset of NSCLC with increased sensitivity to MAPK and mTOR signalling inhibition. 1916 1

The p53-dependent RR small subunit (p53R2) protein, a newly identified member of the ribonucleotide reductase family, plays a key role in the p53-dependent cellular response to DNA. Several recent studies have suggested that p53R2 also plays an important role in suppressing the invasive potential of human cancer cells. However, the cellular mechanism that regulates invasiveness remains largely unknown. In this study, we show that p53R2 interacts with MEK2 (extracellular signal-regulated kinase (ERK) kinase 2-mitogen-activated protein kinase (MAPK) kinase 2), the molecule immediately upstream of ERK in the Ras-Raf-MAPK signaling cascade. In co-immunoprecipitation and immunofluorescence analyses, we found that p53R2 and MEK2 interact physically in cultured mammalian cells, and that the p53R2 segment comprising amino acids 161-206 is critical for this interaction. Moreover, serum-induced phosphorylation of MEK1/2 and ERK1/2 was greatly augmented in human cancer cells expressing small-interfering RNA against p53R2. On the other hand, phosphorylation of MEK1/2 and ERK1/2 in human cancer cells was markedly attenuated by overexpression of p53R2. Furthermore, MEK2 was required for p53R2 knockdown-induced enhancement of the invasive ability and anchorage-independent growth of human lung cancer H1299 cells. Taken together, these findings show that p53R2 negatively modulates serum-induced MEK-ERK activity and inhibits the MEK-ERK-mediated malignancy potential of human cancer cells.
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PMID:Ribonucleotide reductase small subunit p53R2 suppresses MEK-ERK activity by binding to ERK kinase 2. 1939 49

Antimycin A (AMA) inhibits succinate oxidase, NADH oxidase, and mitochondrial electron transport chain between cytochrome b and c. We recently demonstrated that AMA inhibited the growth of Calu-6 lung cancer cells through apoptosis. Here, we investigated the effects of AMA and/or MAPK inhibitors on Calu-6 lung cancer cells in relation to cell growth, cell death, reactive oxygen species (ROS), and GSH levels. Treatment with AMA inhibited the growth of Calu-6 cells at 72 h. AMA-induced apoptosis was accompanied by the loss of mitochondrial membrane potential (MMP; Delta Psi m). While ROS were decreased in AMA-treated Calu-6 cells, O2.- among ROS was increased. AMA also induced GSH depletion in Calu-6 cells. Treatment with MEK inhibitor intensified cell death, MMP (Delta Psi m) loss, and GSH depletion in AMA-treated Calu-6 cells. JNK inhibitor also increased cell death, MMP (Delta Psi m) loss, and ROS levels in these cells. Treatment with p38 inhibitor magnified cell growth inhibition by AMA and increased cell death, MMP (Delta Psi m) loss, ROS level, and GSH depletion in AMA-treated cells. Conclusively, all the MAPK inhibitors slightly intensified cell death in AMA-treated Calu-6 cells. The changes of ROS and GSH by AMA and/or MAPK inhibitors were in part involved in cell growth and death in Calu-6 cells.
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PMID:The effects of MAPK inhibitors on antimycin A-treated Calu-6 lung cancer cells in relation to cell growth, reactive oxygen species, and glutathione. 1971 50

Matrix metalloproteinase-1 (MMP-1) is an inflammation-inducible neutral protease that mediates extracellular matrix remodeling and promotes tumor invasion. In this study, we examined the activation of MMP-1 gene expression in A549 lung carcinoma cells stimulated with the inflammatory cytokine interleukin-1beta (IL-1beta). We found that MMP-1 mRNA levels were maximal following 16 hours of IL-1beta stimulation and that this correlated with the expression of the transcription factor CCAAT enhancer-binding protein-beta (CEBPB). Knockdown of CEBPB expression with short hairpin RNA abrogated the expression of MMP-1, MMP-3, and MMP-10 in IL-1beta-stimulated A549 cells. An established CEBP element in the MMP-1 promoter was found to be required for basal and IL-1beta-induced transcription. Electrophoresis mobility shift assays showed that CEBPB binds to this promoter element maximally 16 hours after IL-1beta stimulation. DNA affinity chromatography studies showed that the LAP1, LAP2, and LIP isoforms of CEBPB bind to the IL-1beta-responsive CEBPB site in the MMP-1 promoter. Exogenous expression of the LAP1 and LAP2 isoforms stimulated the MMP-1 promoter, whereas LIP had no effect. Phosphorylation of CEBPB at Thr(235) peaked at 16 hours in IL-1beta-stimulated cells. The MEK inhibitor U0126 inhibited this phosphorylation and reduced MMP-1 gene induction. These studies establish CEBPB as an important mediator of metalloproteinase gene activation during inflammatory responses in lung cancer cells and highlight the different regulatory roles of CEBPB isoforms.
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PMID:CCAAT enhancer binding protein-beta regulates matrix metalloproteinase-1 expression in interleukin-1beta-stimulated A549 lung carcinoma cells. 1972 73

MEK/ERK activities are increased in many primary lung cancers, and MEK inhibitors have been tested clinically for treatment of non-small cell lung cancers. The molecular mechanisms of resistance to MEK inhibitors have not been clearly demonstrated, however, and no molecular biomarker that can predict lung cancer response to MEK inhibitors is available. By determining the dose-responses of 35 human lung cancer cell lines to MEK-specific inhibitor AZD6244, we identified subsets of lung cancer cell lines that are either sensitive or resistant to this agent. Subsequent molecular characterization showed that treatment with AZD6244 suppressed ERK phosphorylation in both sensitive and resistant cells, suggesting that resistance is not mediated by the activities of MEK/ERK themselves. Interestingly, we found that levels of phosphorylated AKT were dramatically higher in the resistant cancer cells than in the sensitive cells. Stable transfection of dominant-negative AKT into resistant cells by retroviral infection restored their susceptibility to AZD6244. These results indicate that phosphorylated AKT may be a biomarker of response to AZD6244 and that modulation of AKT activity may be a useful approach to overcome resistance to MEK inhibitors.
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PMID:High level of AKT activity is associated with resistance to MEK inhibitor AZD6244 (ARRY-142886). 1985 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

Pancreatic cancer is the fourth leading cause of cancer deaths in the United States, with an overall 5-year survival rate of <5%. Pancreatic ductal adenocarcinoma (PDAC), the most common form of pancreatic cancer, is highly resistant to conventional chemotherapies, underscoring the critical need for new molecular targets for pancreatic cancer chemotherapy. The KRAS proto-oncogene is mutated in >90% of PDAC. Protein kinase Ciota (PKCiota) is required for the oncogenic Ras-mediated transformed growth of lung cancer and intestinal epithelial cells. However, little is known about the role of PKCiota in pancreatic cancer. In this study, we evaluated the expression of PKCiota in human pancreatic cancer and the requirement for PKCiota for the transformed growth and tumorigenicity of PDAC cells. We find that PKCiota is significantly overexpressed in human pancreatic cancer, and high PKCiota expression correlates with poor patient survival. Inhibition of PKCiota expression blocks PDAC cell transformed growth in vitro and tumorigenicity in vivo. Inhibition of PKCiota expression in pancreatic tumors also significantly reduces tumor angiogenesis and metastasis. Analysis of downstream PKCiota effectors implicates the Rac1-MEK/ERK1/2 signaling axis in PKCiota-mediated transformed growth and cellular invasion. Taken together, our data show a required role for PKCiota in the transformed growth of pancreatic cancer cells and reveal a novel role for PKCiota in pancreatic cancer cell metastasis and angiogenesis in vivo. Our results strongly indicate that PKCiota will be an effective target for pancreatic cancer therapy.
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PMID:Protein kinase Ciota is required for pancreatic cancer cell transformed growth and tumorigenesis. 2017 10

Jaagsiekte sheep retrovirus (JSRV) is the causative agent of a contagious lung cancer in sheep that shares similarities with human bronchioloalveolar carcinoma (BAC). JSRV is unique because the envelope gene (env) is the oncogene, as it can transform cells in culture and induce tumors in animals. The phosphatidylinositol 3-kinase (PI3K)-Akt-mTOR and H/N-Ras-MEK-mitogen-activated protein kinase (MAPK) pathways have been shown to be critical for Env transformation. However, the question still remains of how disruption of these pathways relates to tumor formation. To address this, JSRV Env transformation was studied in the context of epithelial structure, using the polarized Madin-Darby canine kidney (MDCK) epithelial cell three-dimensional (3-D) culture system. The results indicated that JSRV Env-transformed MDCK cells were larger and had full or multiple lumens, in contrast to the single lumens observed in controls. The altered phenotype was largely mediated by an increase in proliferation, in addition to overcoming the proliferative suppression signal. JSRV Env was not found to disrupt polarity or tight junctions or to inhibit lumen apoptosis. The PI3K-Akt-mTOR pathway was important for Env transformation in MDCK cells, although the mechanisms of action differed in 3-D and monolayer cultures. PI3K-dependent signaling to mTOR occurred in monolayers, while PI3K-independent signaling to mTOR occurred in 3-D culture. In contrast, the H/N-Ras-MEK-MAPK pathway was found to be inhibitory to transformation in both normal and transformed MDCK cells in 3-D culture. However, in monolayer culture, inhibition of MEK reverted the transformed phenotype, suggesting a different mechanism(s) of action in monolayer versus 3-D culture.
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PMID:Jaagsiekte sheep retrovirus transformation in Madin-Darby canine kidney epithelial cell three-dimensional culture. 2021 22

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

MG132 (carbobenzoxy-Leu-Leu-leucinal) as a proteasome inhibitor has been shown to induce apoptotic cell death through formation of reactive oxygen species (ROS). In this study, we investigated the effects of MEK (mitogen-activated protein [MAP] kinase or extracellular signal-regulated kinase [ERK] kinase) or p38 inhibitor on MG132-treated Calu-6 lung cancer cells in relation to cell growth, cell death, ROS, and glutathione (GSH) levels. Treatment with 10 mumol/L MG132 inhibited the growth of Calu-6 cells at 24 hours. MG132 induced apoptosis in Calu-6 cells, which was accompanied by the loss of mitochondrial membrane potential (MMP; DeltaPsi(m)). ROS were increased in MG132-treated Calu-6 cells. MG132 also induced GSH depletion in Calu-6 cells. Treatment with MEK inhibitor did not significantly affect cell growth, cell death, ROS, and GSH levels in MG132-treated Calu-6 cells. Furthermore, MG132 increased the phosphorylation of p38 in Calu-6 cells at 1 and 24 hours. Treatment with p38 inhibitor significantly prevented cell growth inhibition, MMP (DeltaPsi(m)) loss and apoptosis in MG132-treated Calu-6 cells. This inhibitor increased ROS level and decreased GSH depletion in these cells. In conclusion, p38 inhibitor partially prevented Calu-6 cell death by MG132, which might be affected by GSH level changes.
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PMID:Treatment with p38 inhibitor partially prevents Calu-6 lung cancer cell death by a proteasome inhibitor, MG132. 2047 10


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