Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51812 (mitogen-activated protein)
 10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study was designed to investigate whether apoptosis occurs in early-stage vein grafts and to determine the mechanisms by which mechanical stress contributes to apoptosis in vascular smooth muscle cells (SMCs). Apoptosis in vessel walls of mouse vein grafts was confirmed by morphological changes and by terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling (TUNEL). TUNEL(+) cells in vein grafts 1, 4, and 8 wk postoperatively was 13%, 29%, and 21%, respectively, and apoptosis occurred mainly in veins grafted to arteries, remaining unchanged in vein-to-vein grafts. When mouse, rat, and human arterial SMCs were cultured on a flexible membrane and subjected to cyclic strain stress, apoptosis was observed in a time- and strength-dependent manner. All three types of SMCs showed apoptotic death as confirmed by TUNEL, propidium iodide, and annexin V staining. To further study the signal pathways leading to apoptosis, activities of p38, a subfamily of mitogen-activated protein kinases (MAPKs), were determined. Mechanical stress resulted in p38 MAPK activation, reaching high levels within 8 min. SB 202190, a specific inhibitor for p38 MAPKs, prevented SMC apoptosis in response to mechanical stress. SMC lines stably transfected with a dominant negative rac, an upstream signal transducer, or overexpressing MAPK phosphatase-1, a negative regulator for MAPKs, completely inhibited mechanical stress stimulated p38 activation and abolished mechanical stress-induced apoptosis. Thus, we provide solid evidence that one of the earliest events in venous bypass grafts is apoptosis, in which mechanical stress-induced p38-MAPK activation is responsible for transducing signals leading to apoptosis.-Mayr, M., Li, C., Zou, Y., Huemer, U., Hu, Y., Xu, Q. Biomechanical stress-induced apoptosis in vein grafts involves p38 mitogen-activated protein kinases.
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PMID:Biomechanical stress-induced apoptosis in vein grafts involves p38 mitogen-activated protein kinases. 1066 Apr 48

Expression levels of gangliosides and glycosyltransferase genes responsible for their syntheses in human lung cancer cell lines and a normal bronchial epithelial cell line were analyzed. Both non-small cell lung cancers and small cell lung cancers (SCLCs) mainly expressed G(M2) and G(M1), whereas only SCLCs expressed b-series gangliosides, such as G(D2), G(D1b), and G(T1b). Accordingly, many SCLC cell lines showed up-regulation of the G(D3) synthase gene. Consequently, we introduced G(D3) synthase cDNA into a SCLC line with low expression of b-series gangliosides and analyzed the effects of newly expressed gangliosides on tumor phenotypes. The transfectant cells expressing high levels of G(D2) and G(D3) exhibited markedly increased growth rates and strongly enhanced invasion activities. Addition of anti-G(D2) monoclonal antibodies into the culture medium of these cells resulted in the marked growth suppression of G(D2)-expressing cell lines with reduced activation levels of mitogen-activated protein kinases but not of nonexpressants, suggesting that G(D2) plays important roles in cell proliferation. Moreover, G(D2)-expressing cells treated with anti-G(D2) antibodies showed features of apoptotic cell death at 30 min after addition of antibodies, i.e., shrinkage of cytoplasm, binding of Annexin V, and staining with propidium iodide, followed by DNA fragmentation. This G(D2)-mediated apoptosis was associated with caspase-3 activation and partly inhibited by a caspase inhibitor, z-Val-Ala-Asp-fluoromethyl ketone. The finding that anti-G(D2) antibodies suppressed the cell growth and induced apoptosis of SCLC cells strongly suggested the usefulness of G(D2) as a target for the therapy of disastrous cancer, although the precise mechanisms for apoptosis remain to be clarified.
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PMID:Ganglioside G(D2) in small cell lung cancer cell lines: enhancement of cell proliferation and mediation of apoptosis. 1135 51

Past research indicated that methylseleninic acid (MSA) is an excellent tool for investigating the cancer chemopreventive action of selenium in vitro. The present study was designed to examine the cellular and molecular effects of MSA in the MCF10AT1 and MCF10AT3B premalignant human breast cells. After exposure to MSA, both cell lines exhibited a dose- and time-dependent growth-inhibitory response as determined by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) cell proliferation assay. Further characterization of cellular and molecular changes was carried out only with the MCF10AT1 cells. Flow cytometry analysis showed that MSA blocked cell cycle progression at the G(0)-G(1) phase. Induction of apoptosis was also observed with the use of either the terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) or the annexin V binding method. cDNA microarray analyses with cell cycle- and apoptosis-targeted arrays were then applied to profile the gene expression changes mediating these two cellular events. The analyses were conducted at 6 and 12 h of MSA treatment using synchronized cells. The expression signals of 30 genes were found to be significantly altered by MSA. These genes fall into three categories: cell cycle checkpoint controllers (e.g., cyclins, cdcs, cdks, E2F family proteins, and serine/threonine kinases), apoptosis regulatory genes (e.g., Apo-3, c-jun, and cdk5/cyclin D1), and signaling molecules [e.g., mitogen-activated protein (MAP)/extracellular signal-regulated protein kinase (ERK) and phosphatidylinositol 3'-kinase (PI3k) cascade genes]. The expression changes of 15 genes were selected for verification by Western or semiquantitative reverse transcription-PCR analyses. An agreement rate of 60% (9 of 15) was obtained from these confirmation experiments. On the basis of the above findings, tentative signaling pathways mediating the outcome of selenium-induced cell cycle arrest and apoptosis are proposed. The present study thus demonstrated the feasibility of applying cDNA microarray technology in delineating the mechanisms of the action of selenium and in pinpointing molecular targets as potential biomarkers for evaluating the efficacy of selenium intervention.
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PMID:Identification of molecular targets associated with selenium-induced growth inhibition in human breast cells using cDNA microarrays. 1183 May 24

Therapy with high oxygen concentrations (hyperoxia) is often necessary to treat patients with respiratory failure. However, hyperoxia may exacerbate the development of acute lung injury, perhaps by increasing lung epithelial cell death. Therefore, interrupting lung epithelial cell death is an important protective and therapeutic strategy. In the present study, hyperoxia (95% O(2)) results in murine lung epithelium cell death by DNA-laddering, terminal deoxynucleotidyltransferase dUTP nick end labeling, and Annexin V-fluorescein isothiocyanate flow cytometry assay. We show that hyperoxia increases superoxide production, as assessed by nicotinamide adenine dinucleotide phosphate reduced (NADPH) oxidase activity and flow cytometric assay, and increases phospho-extracellular signal-regulated kinase (ERK)1/2 by Western blot analysis. These processes are inhibited by a reactive oxygen species inhibitor, diphenylene iodonium (DPI), and by an inhibitor of the mitogen-activated protein (MAP) or ERK kinase (MEK)/ERK1/2 pathway, PD98059. ERK1/2 activation in hyperoxia is also inhibited by DPI. Hyperoxia-induced cell death is associated with cytochrome c release, subsequent caspase 9 and 3 activation, and poly (ADP-ribosyl) polymerase cleavage, which can all be suppressed by DPI and PD98059. However, the broad caspase inhibitor z-VAD-FMK protects cells from death without affecting superoxide generation and ERK1/2 activation. Taken together, our data suggest that hyperoxia, by virtue of activating NADPH oxidase, generates reactive oxygen species (ROS), which mediates cell death of lung epithelium via ERK1/2 MAPK activation, and functions upstream of caspase activation in lung epithelial cells.
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PMID:Reactive oxygen species and extracellular signal-regulated kinase 1/2 mitogen-activated protein kinase mediate hyperoxia-induced cell death in lung epithelium. 1259 56

Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous contaminants in the environment. Benzo[a]pyrene (B[a]P), a prototypical member of this class of chemicals, affects cellular signal transduction pathways and induces apoptosis. In this study, the proximate carcinogen of B[a]P metabolism, trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene (B[a]P-7,8-dihydrodiol) and the ultimate carcinogen, B[a]P-r-7,t-8-dihydrodiol-t-9,10-epoxide(+/-) (BPDE-2) were found to induce apoptosis in human HepG2 cells. Apoptosis initiated by B[a]P-7,8-dihydrodiol was linked to activation of the Ah receptor and induction of CYP1A1, an event that can lead to the formation of BPDE-2. With both B[a]P-7,8-dihydrodiol and BPDE-2 treatment, changes in anti- and pro-apoptotic events in the Bcl-2 family of proteins correlated with the release of mitochondrial cytochrome c and caspase activation. The onset of apoptosis as monitored by caspase activation was linked to mitogen-activated protein (MAP) kinases. Utilizing mouse hepa1c1c7 cells and the Arnt-deficient BPRc1 cells, activation of MAP kinase p38 by B[a]P-7,8-dihydrodiol was shown to be Ah receptor-dependent, indicating that metabolic activation by CYP1A1 was required. This was in contrast to p38 activation by BPDE-2, an event that was independent of Ah receptor function. Confirmation that MAP kinases play a critical role in BPDE-2-induced apoptosis was shown by inhibiting caspase activation of poly(ADP-ribose)polymerase 1 (PARP-1) by chemical inhibitors of p38 and ERK1/2. Furthermore, mouse embryo p38-/- fibroblasts were shown to be resistant to the actions of BPDE-2-induced apoptosis as determined by annexin V analysis, cytochrome c release, and cleavage of PARP-1. These results confirm that the Ah receptor plays a critical role in B[a]P-7,8-dihydrodiol-induced apoptosis while p38 MAP kinase links the actions of an electrophilic metabolite like BPDE-2 to the regulation of programmed cell death.
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PMID:The role of the Ah receptor and p38 in benzo[a]pyrene-7,8-dihydrodiol and benzo[a]pyrene-7,8-dihydrodiol-9,10-epoxide-induced apoptosis. 1263 98

Whether deletion of tumor necrosis factor (TNF) receptor 1 or 2 affects lipopolysaccharide (LPS)-mediated signaling is not understood. In this report, we used macrophages derived from wild type (wt) mice and from mice null for the type 1 receptor (p60-/-), the type 2 receptor (p80-/-), or both (p60-/- p80-/-) to investigate the effect of these receptors on LPS-mediated activation of NF-kappaB, mitogen-activated protein kinases, and apoptosis. LPS activated NF-kappaB by 3-4-fold in wt cells but by 9-10-fold in p60-/-, p80-/-, and p60-/- p80-/- macrophages. These results correlated with the IkappaBalpha kinase activation, which is needed for NF-kappaB activation. LPS-induced cyclooxygenase-2 and inducible NO synthase proteins and NO production were maximum in p60-/- p80-/- macrophages and minimum in wt cells. LPS activated C-Jun N-terminal kinase, p38MAPK, and extracellular signal-regulated kinase in wt cells, but the levels were much higher in p60-/-, p80-/-, and p60-/- p80-/- cells. LPS-induced cytotoxicity, poly(ADP-ribose) polymerase cleavage, and annexin V staining were also highest in p60-/- p80-/- cells and lowest in wt cells. The difference in LPS signaling was unrelated to the expression of LPS receptors, CD14, or toll-like receptor 4. Overall, our studies indicate that deletion of either of the TNF receptors sensitizes the macrophages to LPS and provide evidence for cross-talk between TNF and LPS signaling.
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PMID:Genetic deletion of the tumor necrosis factor receptor p60 or p80 sensitizes macrophages to lipopolysaccharide-induced nuclear factor-kappa B, mitogen-activated protein kinases, and apoptosis. 1269 14

During embryo implantation in species with hemochorial placentation, such as the mouse and human, trophoblast cells of the attached blastocyst penetrate the luminal epithelium of the endometrium before invasion into the endometrial stroma. Signs of apoptosis were demonstrated in luminal endometrial epithelial cells (EEC) adjacent to the trophoblast cells; however, the signaling mechanisms leading to apoptosis in EEC remain unclear. Because mitogen-activated protein kinases (MAPK) were shown to mediate apoptosis in several model systems and found to be activated in the uterus during decidualization, the possible involvement of MAPK during trophoblast-EEC interactions was studied. By coculturing BeWo human trophoblast spheroids with RL95-2 human EEC monolayers to mimic the blastocyst-endometrial interaction, we found that most spheroids rapidly attached to EEC monolayers and then progressively expanded, with marked dislodgment of EEC adjacent to the spreading trophoblast cells. Immunoblotting analysis showed that both p38 MAPK and extracellular signal-regulated kinase (ERK) were activated in EEC after coculture. However, only SB203580 (a p38 MAPK inhibitor), but not PD98059 (an ERK inhibitor), inhibited trophoblast outgrowth on EEC monolayers through the suppression of p38 MAPK activation in EEC. Furthermore, trophoblast expansion caused prominent EEC apoptosis at the spheroid-EEC interface, as detected by annexin V labeling and valyl-alanyl-aspartyl-[O-methyl]-fluoromethylketone (which binds activated caspases) staining, and SB203580 significantly decreased the percentage of apoptotic cells. Our results, based on a model of human trophoblast-EEC interactions, establish that trophoblast cells cause activation of p38 MAPK in EEC and, consequently, induce apoptosis and displacement of EEC, a process that may facilitate implantation.
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PMID:Induction of p38 mitogen-activated protein kinase-mediated apoptosis is involved in outgrowth of trophoblast cells on endometrial epithelial cells in a model of human trophoblast-endometrial interactions. 1282 88

Methionine enkephalin, the endogenous opioid peptide, has a diversity of effects on the immune system. Although the biological effects of the pentapeptide have been well documented, little is known about the intracellular events involved in the effects of opioids on human immunodeficiency virus (HIV) infected immune cells. In the present investigation, the possible mechanism of apoptosis alleviated by exposure of methionine enkephalin at 1 micromol/l to CEM x 174 cells, the hybrid lymphocytes, infected with simian immunodeficiency virus (SIV) in vitro is elucidated. Apoptosis and cell cycle analysis is carried out by flow cytometry, the phosphorylation of mitogen-activated protein kinases (MAPK) ERK1 and ERK2 is detected by Western blotting assay, and changes of calcium concentration were analyzed using the calcium-sensitive dye Fluo-3 AM. The results exhibit that methionine enkephalin at the concentrations of 1 micromol/l increase remarkably the proportion of vital cells and decrease the apoptotic cells based on annexin V binding assay. In response to the treatment with methionine enkephalin, SIV-infected cells display a prolonged survival and are accumulated in G1 phase. Methionine enkephalin increase obviously the content of intracellular calcium in normal cells within 1-2 min and maintains a high level within monitoring time. However, the intracellular calcium reaches the highest level at 1 min and subsequently decline to background in SIV infected group. In addition, methionine enkephalin also elevates the levels of protein kinase C (PKC) activity and phosphorylated extracellular signal-regulated kinase (ERK) 1/2. It is proposed that calcium-PKC-MAPK cascade is involved in methionine enkephalin-prolonged survival of SIV-infected cells in the early stages of virus infection. The results provide a further evidence for potential use of methionine enkephalin on the therapy of Acquired Immunodeficiency Syndrome (AIDS).
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PMID:Signaling pathway involved in methionine enkephalin-promoted survival of lymphocytes infected by simian immunodeficiency virus in the early stage in vitro. 1497 62

G protein (heterotrimeric guanine nucleotide-binding protein)-coupled receptors (GPCRs) activate numerous cellular signals through the combined actions of G proteins, GPCR kinases, and arrestins. Although arrestins have traditionally been thought of as mediating GPCR desensitization, they have now been shown to play important roles in the internalization, trafficking, and signaling of many GPCRs. We demonstrate that in cells devoid of arrestins, the stimulation of numerous GPCRs including the N-formyl peptide receptor (FPR) initiates rapid cell rounding, annexin V positivity, and caspase activation followed by cell death. The apoptotic response is initiated by G protein signaling and involves activation of phosphoinositide 3-kinase, mitogen-activated protein kinases, and c-Src resulting in cytochrome c release from mitochondria and ultimately caspase 9 and caspase 3 activation. Reconstitution with either arrestin-2 or arrestin-3 is completely sufficient to prevent FPR-mediated apoptosis. Surprisingly, a non-desensitizing and non-internalizing mutant of the FPR is unable to initiate apoptosis, indicating that receptor phosphorylation and internalization, but not solely chronic activation due to a lack of desensitization, are critical determinants for the induction of apoptosis by the FPR. We further demonstrate that this response is not unique to the FPR with numerous additional GPCRs, including the V2 vasopressin, angiotensin II (type 1A), and CXCR2 receptors, capable of initiating apoptosis upon stimulation, whereas GPCRs such as the beta(2)-adrenergic receptor and CXCR4 are not capable of initiating apoptotic signaling. These data demonstrate for the first time that arrestins play a critical and completely unexpected role in the suppression GPCR-mediated apoptosis, which we show is a common consequence of GPCR-mediated cellular activation in the absence of arrestins.
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PMID:Arrestins block G protein-coupled receptor-mediated apoptosis. 1505 14

The purpose of this study was to examine the effect of cyclooxygenase-2 (COX-2) inhibitors on the mitogen-activated protein (MAP) kinase signaling pathway and synthesis of glucosaminoglycan after nitric oxide (NO) induction in articular human chondrocytes. After NO induction, the cells were divided into three groups that were treated with either ethanol (control); a selective COX-2 inhibitor (Celecoxib), or no additive, and evaluated. There were no differences in the effect of the selective COX-2 inhibitor on mitochondrial membrane potential or Annexin V levels. However, Celecoxib significantly decreased prostaglandin E2 (PGE2) production. Celecoxib also decreased the phosphorylation state of p38 and p44/42 of MAP kinase. The ratio of chondroitin-6 sulfate (C6S)/C4S was increased in response to the exposure to Celecoxib. Celecoxib did not affect apoptosis, but decreased the activation of MAP kinase in osteoarthritic chondrocytes after NO induction. NO-induced OA chondrocytes were associated with the p38 and the p44/42 MAPK signaling pathways, in a pathway that is distinct from PGE2-mediated apoptosis.
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PMID:Selective COX-2 inhibitor regulates the MAP kinase signaling pathway in human osteoarthritic chondrocytes after induction of nitric oxide. 1564 33


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