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

Prolidase [E.C. 3.4.13.9] plays an important role in the recycling of proline for collagen synthesis and cell growth and this enzyme activity determines the rate of collagen turnover. It has been previously suggested that prolidase activity is regulated through signal mediated by the interaction of ECM proteins, with b1 integrin receptor and that this interaction is disturbed in MCF-7 cells. The potential candidates for mediating signal transduction are the nonreceptor tyrosine kinase p125FAK and two mitogen-activated protein (MAP) kinases, ERK-1 and ERK-2, which are activated upon attachment of cells to ECM. We found that serum starvation of MCF-7 cells for 24 hours contributed to a significant decrease (by about 30%) in prolidase activity and collagen biosynthesis. These phenomena were accompanied by suppression of MAP kinases expression without any effect on the expression of FAK. The data suggest that prolidase activity and collagen biosynthesis respond to signal mediated by MAP kinases, independently of FAK expression in MCF-7 cells.
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PMID:FAK-independent regulation of prolidase activity and collagen biosynthesis in MCF-7 cells. 1182 Jun 13

1. Available anticancer drugs do not seem to modify the prognosis of metastatic melanoma. Salicylate and acetyl salicylic acid (aspirin) were found to suppress growth in a number of transformed cells, that is, prostate and colon. Therefore, we studied the direct effects of aspirin on metastatic B16 melanoma cells. 2. Aspirin at a plasma-attainable and nontoxic level suppressed the proliferation of B16 cells. 3. Aspirin induced the activation of p38 and c-Jun N-terminal kinase (JNK) mitogen-activated protein kinases. 4. Inhibition of JNK, but not p38, decreased the suppressive effect of aspirin upon the proliferation of B16 cells. 5. The aspirin-induced reduction in B16 proliferation was cumulative over time. 6. Aspirin and the chemotherapeutic drug 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) induced B16 cell death synergistically. 7. In addition to the murine B16 cell line, the proliferation of SK-28 human melanoma cells was also suppressed by aspirin. 8 In conclusion, aspirin suppresses the proliferation of metastatic B16 cells in a JNK-dependent mechanism.
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PMID:Stress-responsive JNK mitogen-activated protein kinase mediates aspirin-induced suppression of B16 melanoma cellular proliferation. 1268 72

Our previous studies indicated that millimolar doses of aspirin induced growth arrest and resistance to anticancer drug treatment in Caco-2 cells. The present study was designed to better elucidate at the molecular level the effect of aspirin treatment on pathways that regulate cell death during serum withdrawal. Caco-2 cells were cultured under serum deprivation in the presence or absence of aspirin. Effects on cell cycle, phosphatidylinositol 3-kinase (PI3-kinase) and mitogen-activated protein (MAP) kinase pathways were investigated. We found that aspirin, but not the selective cyclooxygenase-2 inhibitor N-[2-(cyclohexyloxyl)-4-nitrophenyl]-methane sulfonamide (NS-398); prevented apoptosis and G2/M transition after prolonged Caco-2 cells serum deprivation. Aspirin-dependent inhibition of apoptosis and G2/M transition was prevented by treatment with the PI3-kinase inhibitor 2-(4-morpholinyl)-8-phenyl-4H-1-benzopyran-4-one (LY294002), but not with the MAP kinase kinase inhibitor 2'-amino-3'-methoxyflavone (PD98059). The effects of aspirin were mediated at molecular levels, through activation of PI3-kinase/AKT pathway and increase in the p21Cip/WAF1 level. The ability of aspirin to activate AKT protein was observed also in presence of etoposide cotreatment. Our data indicate a new intracellular target of aspirin with potential clinical impact for treatment schedules involving both anticancer agents and aspirin in malignancies.
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PMID:Aspirin protects Caco-2 cells from apoptosis after serum deprivation through the activation of a phosphatidylinositol 3-kinase/AKT/p21Cip/WAF1pathway. 1286 45

Aspirin (acetylsalicylic acid) is a commonly used non-steroidal anti-inflammatory drug capable of acetylating proteins in the course of a simple, non-enzymatic chemical reaction. Its main physiological effect is inhibiting prostanoid synthesis. Cyclooxygenases, COX-1 and COX-2, are crucial in the metabolic pathway leading to the generation of prostanoids. Both enzymes are major cellular targets for aspirin. The physiological spectrum of the biological activity of the prostanoids is very broad, and underlies the high clinical effectiveness of aspirin as an anti-inflammatory, antipyretic, and analgesic drug. Apart from the inhibition of prostanoid synthesis aspirin shows a variety of pharmacological activities, including reduction of ATP storage pools, increased extracellular adenosine, lowered inducible nitric oxide synthase activity, modulation of mitogen-activated protein kinases, and the expression of a plethora of genes induced under conditions of cell stress via the regulation of transcription factor NFkappaB activity. Such multipotent action explains its wide use in clinical practice. Regardless of the accumulated evidence on the molecular mechanisms of aspirin's action, the rationale of the appropriate dosing and monitoring of aspirin therapy and prophylaxis remains obscure. Hence, an evaluation and reasonable weighing of the cost/benefit ratio of aspirin therapy in various diseases seems appropriate.
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PMID:[Aspirin--the prodigious panacea? Molecular mechanisms of the action of acetylsalicylic acid in the organism]. 1592 93

The ovarian hormone, 17beta-estradiol, has been suggested to play an important role in gender-specific differences in cardiovascular diseases. One possible cardioprotective mechanism involves the interaction between 17beta-estradiol and the renin-angiotensin system. Previous studies demonstrated that fibroblast function and gene expression are regulated by biochemical factors including growth factors, hormones, and cytokines, but little is known regarding the integration of these diverse signals. Therefore, the purpose of this study was to determine the ability of 17beta-estradiol to modulate angiotensin II (AngII) effects on integrin-induced collagen gel contraction, matrix metalloproteinase (MMP) activity and expression, and signal transduction pathways in isolated neonatal cardiac fibroblasts. 17beta-estradiol significantly attenuated AngII-stimulated collagen gel contraction and significantly diminished the effect of AngII on the expression of beta1 and not alpha1integrins. Active MMP-2 levels were decreased by AngII and addition of 17beta-estradiol resulted in further reductions. Relative MMP-2 mRNA levels showed essentially identical patterns to protein levels. 17beta-estradiol pretreatment increased AngII-mediated mitogen-activated protein (MAP) kinase p42/44 activation and slightly decreased p38 activation compared to non-pretreated fibroblasts. Simultaneous addition of 17beta-estradiol and AngII had little to no effect on AngII activation of p42/44 or p38 MAP kinase. The current studies demonstrate the inhibitory role of estrogen on AngII-induced fibroblast-mediated ECM remodeling, gene expression, and signal transduction. These studies begin to elucidate the mechanisms of estrogen effects on myocardial remodeling and function.
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PMID:17beta-estradiol modulation of angiotensin II-stimulated response in cardiac fibroblasts. 1676 74

Congestive heart failure (CHF) causes arrhythmogenic, structural and contractile remodeling, with important atrial-ventricular differences: atria show faster and greater inflammation, cell-death and fibrosis. The present study assessed time-dependent left atrial (LA) and ventricular (LV) gene-expression changes in CHF. Groups of dogs were submitted to ventricular tachypacing (VTP, 240 bpm) for 24 h or 2 weeks, and compared to sham-instrumented animals. RNA from isolated LA and LV cardiomyocytes of each dog was analyzed by canine-specific microarrays (>21,700 probe-sets). LA showed dramatic gene-expression changes, with 4785 transcripts significantly-altered (Q<5) at 24-hour and 6284 at 2-week VTP. LV gene-changes were more limited, with 52 significantly-altered at 24-hour and 130 at 2-week VTP. Particularly marked differences were seen in ECM genes, with 153 changed in LA (e.g. approximately 65-fold increase in collagen-1) at 2-week VTP versus 2 in LV; DNA/RNA genes (LA=358, LV=7); protein biosynthesis (LA=327, LV=14); membrane transport (LA=230, LV=8); cell structure and mobility (LA=159, LV=6) and coagulation/inflammation (LA=147, LV=1). Noteworthy changes in LV were genes involved in metabolism (35 genes; creatine-kinase B increased 8-fold at 2-week VTP) and Ca(2+)-signalling. LA versus LV differential gene-expression decreased over time: 1567 genes were differentially expressed (Q<1) at baseline, 1499 at 24-hour and 897 at 2-week VTP. Pathway analysis revealed particularly-important changes in LA for mitogen-activated protein-kinase, apoptotic, and ubiquitin/proteasome systems, and LV for Krebs cycle and electron-transfer complex I/II genes. VTP-induced CHF causes dramatically more gene-expression changes in LA than LV, dynamically altering the LA-LV differential gene-expression pattern. These results are relevant to understanding chamber-specific remodeling in CHF.
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PMID:Marked differences between atrial and ventricular gene-expression remodeling in dogs with experimental heart failure. 1880 23

Anticancer agents act, at least in part, by inducing reactive oxygen and nitrogen species (RONS). We examined the redox effect on SW480 and HT-29 colon cancer cells of four anticancer compounds, arsenic trioxide, phosphoaspirin, phosphosulindac, and nitric oxide-donating aspirin (NO-ASA). All compounds inhibited the growth of both cell lines (IC(50), 10-90 micromol/L) and induced RONS detected by a general RONS molecular probe. NO-ASA, which induced at least four individual RONS (NO, H(2)O(2), superoxide anion, and peroxynitirte), induced apoptotic and necrotic cell death that was RONS-mediated (cell death paralleled RONS levels and was abrogated by N-acetyl cysteine but not by diphenylene iodonium, which displayed prooxidant activity and enhanced cell death). Nuclear factor-kappaB and mitogen-activated protein kinases were modulated by RONS. Thioredoxin-1 (Trx-1), an oxidoreductase involved in redox regulation, was heavily oxidized in response to RONS and mediated the growth inhibitory effect of the anticancer agents; knocking-down trx-1 expression by small interfering RNA abrogated cell death induced by them. These compounds also inhibited the activity of Trx reductase that reduces oxidized Trx-1, whereas the Trx reductase inhibitor aurothiomalate synergized with NO-ASA in the induction of cell death. Our findings indicate that the Trx system mediates to a large extent redox-induced cell death in response to anticancer agents. This mechanism of action may be shared by more anticancer agents and deserves further assessment as a candidate mechanism for the pharmacologic control of cancer.
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PMID:The thioredoxin system mediates redox-induced cell death in human colon cancer cells: implications for the mechanism of action of anticancer agents. 1892 98

Aspirin and other non-steroidal anti-inflammatory drugs induce apoptosis in most cell types. In this study we examined the mechanism of aspirin-induced apoptosis in human leukemia cells. We analyzed the role of nuclear factor-kappaB (NF-kappaB) and mitogen-activated protein kinases (MAPKs) pathways. Furthermore, we studied the changes induced by aspirin in some genes involved in the control of apoptosis at mRNA level, by performing reverse transcriptase multiplex ligation-dependent probe amplification (RT-MLPA), and at protein level by Western blot. Our results show that aspirin induced apoptosis in leukemia Jurkat T cells independently of NF-kappaB. Although aspirin induced p38 MAPK and c-Jun N-terminal kinase activation, selective inhibitors of these kinases did not inhibit aspirin-induced apoptosis. We studied the regulation of Bcl-2 family members in aspirin-induced apoptosis. Aspirin increased the mRNA levels of some pro-apoptotic members, such as BIM, NOXA, BMF or PUMA, but their protein levels did not change. In contrast, aspirin decreased the protein levels of Mcl-1. Interestingly, in the presence of aspirin the protein levels of Noxa remained high. This alteration of the Mcl-1/Noxa balance was also found in other leukemia cell lines and primary chronic lymphocytic leukemia cells (CLL). Furthermore, in CLL cells aspirin induced an increase in the protein levels of Noxa. Knockdown of Noxa or Puma significantly attenuated aspirin-induced apoptosis. These results indicate that aspirin induces apoptosis through alteration of the Mcl-1/ Noxa balance.
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PMID:Aspirin induces apoptosis in human leukemia cells independently of NF-kappaB and MAPKs through alteration of the Mcl-1/Noxa balance. 1993 28

Prion diseases are infectious neurodegenerative disorders characterized by the conversion of the cellular prion protein (PrPc) to the misfolded isoform (PrPsc). Prion peptide PrP 106-126 [PrP (106-126)] shares many physiological properties with PrPsc; it is neurotoxic in vitro and in vivo. PrP (106-126) induces neurotoxicity by the overexpression of PrPc and activation of the mitogen-activated protein (ERK1/2). Aspirin, an anti-inflammatory drug, is a known ERK inhibitor and prevents neurodegenerative disorders including prion diseases. The influence of aspirin treatment on prion protein-mediated neurotoxicity and expression of PrPc were the focus of this study. Cell viability and apoptosis were assessed by crystal violet staining and the TUNEL and DNA fragmentation assays. Apoptosis-associated protein expression of PrPc, p-53, p-ERK1/2, p-p38, Bcl-2 and cleaved-caspase-3 was examined by Western blotting and immunocytochemistry. Aspirin treatment inhibited PrP (106-126)-induced neuronal cell death in SH-SY5Y neuroblastoma cells. In addition, the PrP (106-126)-mediated increase of p-p38, p53, cleaved-caspase-3 and decrease of Bcl-2 expressions were blocked by aspirin and the ERK inhibitor, PR98059. Furthermore, we showed that the PrP (106-126)-mediated increase of PrPc and p-ERK1/2 were inhibited by PD98059 and aspirin. Taken together, these results demonstrate that ERK1/2 is a key modulator of the protective effect of aspirin on PrP-106-126-mediated cellular prion protein overexpression and neurotoxicity and also suggest that aspirin may prevent neuron cell damages caused by the prion peptide.
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PMID:Prion peptide-mediated cellular prion protein overexpression and neuronal cell death can be blocked by aspirin treatment. 2134 12

Aspirin hypersensitivity is a hallmark of aspirin-exacerbated respiratory disease (AERD), a clinical syndrome characterized by the severe inflammation of the respiratory tract after ingestion of cyclooxygenase-1 inhibitors. We investigated the capacity of aspirin to induce interleukin-4 (IL-4) production in inflammatory cells relevant to AERD pathogenesis and examined the associated biochemical and molecular pathways. We also compared IL-4 production in peripheral blood mononuclear cells (PBMCs) from patients with AERD vs aspirin-tolerant asthma (ATA) upon exposure to aspirin. Aspirin induced IL-4 expression and activated the IL-4 promoter in a report assay. The capacity of aspirin to induce IL-4 expression correlated with its activity to activate mitogen-activated protein kinases, to form DNA-protein complexes on P elements in the IL-4 promoter and to synthesize nuclear factor of activated T cells, critical transcription factors for IL-4 transcription. Of clinical importance, aspirin upregulated IL-4 production twice as much in PBMCs from patients with AERD compared with PBMCs from patients with ATA. Our results suggest that IL-4 is an inflammatory component mediating intolerance reactions to aspirin, and thus is crucial for AERD pathogenesis.
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PMID:Aspirin induces IL-4 production: augmented IL-4 production in aspirin-exacerbated respiratory disease. 2753 31


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