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: EC:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mortalin (mot-2/GRP75/PBP74/mthsp70) is a member of the hsp70 family of proteins and is differentially distributed in normal and immortal cells. It was shown to be involved in pathways to cell senescence and immortalization. To elucidate its functional aspects, a yeast interactive screen for mortalin (mot-2) binding proteins was performed. Mevalonate pyrophosphate decarboxylase (MPD) was identified as one of the mortalin binding partners. The interactions were confirmed in mammalian cells by two-hybrid assay and in vivo coimmunoprecipitation. MPD is known to furnish prenyl groups required for prenylation, protein modification that is essential for the activity of many proteins including p21(Ras) (Ras). We have examined the effect of MPD-mot-2 interactions on the level and activity of p21(Ras) and its downstream effectors, p44 and p42 MAP kinases (ERK1/ERK2), in Ras-Raf pathway. An overexpression of mot-2 resulted in reduced level of Ras and phosphorylated ERK2. These were rescued by co-expression of MPD from an exogenous promoter demonstrating a functional link between mot-2, MPD, and Ras. Ras and its oncogenic forms act as key players in controlling proliferation of normal and cancerous cells. Assigning mot-2 upstream of p21(Ras) offers an important mechanism for influence over cell proliferation.
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PMID:Mortalin-MPD (mevalonate pyrophosphate decarboxylase) interactions and their role in control of cellular proliferation. 1264 31

The clinically relevant polyamine analogue N(1),N(11)-diethylnorspermine (DENSPM) inhibits cell growth by down-regulating polyamine biosynthesis, up-regulating polyamine catabolism at the level of spermidine/spermine N(1)-acetyltransferase (SSAT), and depleting intracellular polyamine pools. Among human melanoma cell lines, the analogue causes rapid apoptosis in SK-MEL-28 cells and a sharp G(1) arrest in MALME-3M cells. This study reveals that DENSPM potently activates the mitogen-activated protein kinase (MAPK) pathways in melanoma cells and investigates the role of this response in determining cellular outcomes. Onset of apoptosis was preceded by an intense phosphorylation of the MAPKs, including extracellular signal-regulated kinase 1/2, c-Jun NH(2)-terminal kinase, and p38 in both SK-MEL-28 and MALME-3M cells. A panel of DENSPM analogues differing only in their ability to induce SSAT was used to show that MAPK activation was causally linked to induction of SSAT activity and related oxidative events. The latter was confirmed with the polyamine oxidase inhibitor MDL-75275 and the antioxidant N-acetyl-L-cysteine, which when used in combination with DENSPM, decreased MAPK activation and as previously shown, reduced apoptosis. The MAP/extracellular signal-regulated kinase-1 inhibitor PD 98059 reduced activation of all three kinases but failed to alter apoptosis in DENSPM-treated SK-MEL-28 cells. By contrast, the inhibitor prevented p21(waf1/cip1) induction and enhanced apoptosis in MALME-3M cells as indicated by accelerated caspase-3 activation and positive annexin V staining. The generality of this effect was demonstrated in DENSPM-treated A375 and LOX human melanoma cells. Taken together, the importance of the MAPK pathways in determining the biological response to DENSPM treatment is dependent on the genetic environment of the cell.
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PMID:The role of mitogen-activated protein kinase activation in determining cellular outcomes in polyamine analogue-treated human melanoma cells. 1283 50

Spitz nevi are benign melanocytic nevi that overlap histopathologically with melanoma. We previously found copy number increases of chromosome 11p frequently paralleled by mutations in the HRAS oncogene mapping to this region. In this study, we explored mechanisms that inhibit proliferation in the presence of HRAS activation. We analyzed MAP-kinase activation using immunohistochemistry for phospho-ERK, cyclin D1, and microphthalmia transcription factor expression in 17 Spitz nevi with and 18 Spitz nevi without 11p copy number increase. We found relatively high levels of phospho-ERK and cyclin D1 expression suggesting MAP-kinase pathway activation in both groups of Spitz nevi. However, Spitz nevi with 11p copy number increases showed significantly higher levels of cyclin D1 expression and lower levels of microphthalmia transcription factor expression suggesting stronger MAP-kinase pathway activation in this group. Contrasting this apparent activation, the proliferation rate as assessed by Mib1 expression was low in both groups. An analysis of cell-cycle inhibitory proteins including p16, p21, and p27 showed that the majority of Spitz nevus cells expressed high levels of p16, with cells of the cases that had increased copy number of 11p expressing significantly higher levels than those of Spitz nevi with normal copy number of 11p. We propose that in benign nevi with constitutive activation of the MAP-kinase pathway, p16 functions as an essential mediator of oncogene-induced senescence preventing progression to melanoma.
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PMID:Mechanisms of cell-cycle arrest in Spitz nevi with constitutive activation of the MAP-kinase pathway. 1511 24

Several forms of human dwarfism are due to activating mutations in FGFR3 highlighting the role of FGF signaling in the growth attenuation of cartilage. Here, we studied the effects of FGF2 on RCS chondrocytes. Treatment with FGF2 induced growth arrest in the G1 phase of the cell cycle and partial de-differentiation of cells manifested by changes in cell morphology, loss of the cartilage-like extracellular matrix, and down-regulation of aggrecan expression. FGF2 activated phospholipase Cgamma, protein kinase B, and Erk and p38 MAP kinases. Chemical inhibition of FGFR3 and MEK1/2 antagonized FGF2-mediated growth arrest. Expression of a dominant-negative Ras mutant resulted in a partial reversal of growth inhibition while expression of constitutively activated Ras led to Erk-dependent growth arrest, further demonstrating the role of the Ras/Erk pathway in this phenotype. At the molecular level, FGF2-induced growth arrest was initiated by disintegration of cyclin D3-cdk6 complex followed by increased association of p21(WAF1) and p27(Kip1) with the cyclin-cdk2 and cyclin-cdk4 complexes leading to inhibition of their kinase activities and ultimately to underphosphorylation of the p107 and p130 pocket proteins. Both p21(WAF1) and p27(Kip1) accumulated upon FGF2 treatment, but this accumulation occurred at the protein level at least partially due to interaction with transcriptionally induced cyclin D1.
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PMID:FGF2 inhibits proliferation and alters the cartilage-like phenotype of RCS cells. 1519 33

Inhibition of angiogenesis is emerging as a promising strategy for the treatment of cancer. In our study reported here, the effects of 4 highly potent methionine aminopeptidase 2 (MetAP2) inhibitors, IDR-803, IDR-804, IDR-805 and CKD-732 (designed by structure-based molecular modeling), on angiogenesis and tumor growth were assessed. Concentrations of these inhibitors as low as 2.5 nM were able to inhibit the growth of human umbilical vein endothelial cells (HUVEC) by as much as 50%, arresting growth in the G1 stage of mitosis. An intracellular accumulation of p21(WAF1/Cip1) protein was also observed. Furthermore, at higher concentrations (25 nM) of these 4 MetAP2 inhibitors, a significant induction of apoptosis was apparent in the same HUVEC cultures. As a result of these findings, the possible anticancer effects of these inhibitors were examined, utilizing the SNU-398 hepatoma cell line. Interestingly, pretreatment with these inhibitors led to an increased number of apoptotic cells of up to 60% or more, compared to untreated controls. Moreover, utilizing an in vivo xenografted murine model, these inhibitors suppressed the growth of engrafted tumor. In conclusion, these 4 inhibitory compounds potently exert an antiangiogenic effect to inhibit the growth of cancers in vivo and could potentially be useful for the treatment of a variety of cancers.
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PMID:Novel inhibitors targeted to methionine aminopeptidase 2 (MetAP2) strongly inhibit the growth of cancers in xenografted nude model. 1552 82

Organized neuronal migration and guided axon outgrowth are key determinants of the development of the functional nervous system. L1, a member of the Ig superfamily of cell surface receptors, stimulates cell migration and neurite outgrowth through the MAP kinases ERK1, 2. The signaling molecules participating in this signaling cascade have only partly been identified. Here it is shown that L1 clustering activates the guanine nucleotide exchange factor (GEF) Vav2 and the Rac1 effector p21 associated kinase 1 (Pak1). Also, we found that Pak1 kinase activity contributes to ERK activation by L1, and is necessary for L1-potentiated haptotactic cell migration. A signaling pathway is proposed from L1 through Vav2, Rac1, Pak1 and ERK that may be important for L1 mediated neuronal cell migration.
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PMID:Adhesion molecule L1 stimulates neuronal migration through Vav2-Pak1 signaling. 1559 56

Neurotrophic growth factors are involved in cell survival. However, natural growth factors have a very limited therapeutic use because of their short half-life. In the present study, we investigated the mechanism of action of a non-peptidic neurotrophic drug, Xaliproden, a potential molecule for the treatment of motoneuron diseases, since the transduction pathways of this synthetic 5-HT1A agonist are very poorly understood. Xaliproden does not activate the Trk receptor but causes a rapid increase in the activities of the ERK1 and ERK2 isoforms of MAP kinase, which then rapidly decrease to the basal level. We demonstrate that isoforms of the SHC adapter protein are phosphorylated independently of each other and are probably not the source of the Xaliproden-induced MAP kinases activation. The inhibitor of Ras farnesylation, FPT-1, and the protein kinase C inhibitors, GF 109203X and chelerythrine, inhibited the Xaliproden-induced MAP kinase activation, suggesting p21Ras and PKC involvement. Moreover, the observations that the 5-HT1A antagonist, pindobind, and pertussis toxin abolished the Xaliproden-induced ERK stimulation suggested that Xaliproden activates the MAP kinase pathways by stimulating the G protein-coupled receptor, 5-HT1A. These results demonstrate clearly that the non-peptidic compound, Xaliproden, exerts its neurotrophic effects through a mechanism of action differing from that of neurotrophins. These findings suggest that this compound does not involve MAPK activation by TrkA receptor stimulation but acts by MAP kinase pathway by a pertussis toxin-sensitive mechanism involving 5-HT1A receptors, p21 Ras and MEK-1 and by PKC and Akt pathways.
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PMID:Xaliproden (SR57746A) induces 5-HT1A receptor-mediated MAP kinase activation in PC12 cells. 1588 46

Unregulated FGF signaling produced by activating FGFR3 mutations causes several forms of dwarfism-associated chondrodysplasias in humans and mice. FGF signaling inhibits chondrocyte proliferation by activating multiple signal transduction pathways that all contribute to chondrocyte growth arrest and induction of some aspects of differentiation. Previous studies had identified the Stat1 pathway, dephosphorylation of the Rb family proteins p107 and p130, induction of p21 expression and sustained activation of MAP kinases as playing a role in the FGF response of chondrocytes. We have examined the role of Akt (PKB) in the response of chondrocytes to FGF signaling. Differently from what is observed in many other cell types, FGF does not activate Akt in chondrocytes, and Akt phosphorylation is actually downregulated after FGF treatment. By expressing a constitutively activated, myristylated form of Akt (myr-Akt) in the RCS chondrosarcoma cell line, we show that Akt activation partially counteracts the inhibitory effect of FGF signaling. The response of myr-Akt expressing cells to FGF is identical to parental RCS in the first few hours after treatment, but then diverges as myr-Akt cells show decreased p130 phosphorylation, increased cyclin E/cdk2 activity and continue to proliferate at a slow rate. Constitutive Akt activation does not affect p21 expression but appears to influence directly cdk/cyclin activity. On the other hand, the induction of differentiation-related genes is unchanged in myr-Akt cells. These results identify Akt downregulation as an important aspect of the response of chondrocytes to FGF that, however, only affects chondrocyte proliferation and not the ability of FGF to induce differentiation genes.
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PMID:Downregulation of Akt activity contributes to the growth arrest induced by FGF in chondrocytes. 1652 91

In this paper we have explored the role of different kinase pathways of signal transduction in proliferation control of E1A + Ras transformants, using specific inhibitors of MAP-kinases ERK, JNK, p38 and PI3-kinase. According to our data, suppression of signalling cascades driven by RI3K only arrested proliferation of E1A + Ras cells, while suppression of either MAP-kinase did not lead to noticeable antiproliferative effect. We have shown that suppression of RI3K with LY294002 gave rise to accumulation of cyclin-dependent kinase inhibitor p27(KiP1) but not p21(Waf1). Accumulation of p27(KiP1) in LY294002-treated E1A + Ras cells was accompanied by a decrease in Cyclin E-Cdk2 and Cyclin A-Cdk2 activity, which caused diminution of Rb phosphorylation and strengthening of E2F-Rb binding. Binding of E2F with hypophosphorylated Rb resulted in inhibition of E2F activity and reduction of E2F-regulated gene transcription, these genes being necessary for S-phase entry and DNA synthesis. Thus, RI3K--Akt cascade plays the key role in maintenance of autonomous proliferation of cells transformed with E1A and cHa-ras oncogenes. Inhibition of PI3K leads to p27(Kip1) accumulation and cell cycle arrest, consequently.
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PMID:[The role of different kinase pathways of signal transduction in proliferation of E1A + Ras transformants]. 1670 95

One of the major redox-regulating molecules with thiol reducing activity is thioredoxin-1 (TRX-1). TRX-1 is a multifunctional protein that exists in the extracellular millieu, cytoplasm, and nucleus, and has a distinct role in each environment. It is well known that TRX-1 promptly migrates to the nuclear compartment in cells exposed to oxidants. However, the intracellular location of TRX-1 in cells exposed to nitrosothiols has not been investigated. Here, we demonstrated that the exposure of HeLa cells to increasing concentrations of the nitrosothiol S-nitroso-N-acetylpenicillamine (SNAP) promoted TRX-1 nuclear accumulation. The SNAP-induced TRX-1 translocation to the nucleus was inhibited by FPTIII, a selective inhibitor of p21Ras. Furthermore, TRX-1 migration was attenuated in cells stably transfected with NO insensitive p21Ras (p21(RasC118S)). Downstream to p21Ras, the MAP Kinases ERK1/2 were activated by SNAP under conditions that promote TRX-1 nuclear translocation. Inhibition of MEK prevented SNAP-stimulated ERK1/2 activation and TRX-1 nuclear migration. In addition, cells treated with p21Ras or MEK inhibitor showed increased susceptibility to cell death induced by SNAP. In conclusion, our observations suggest that the nuclear translocation of TRX-1 is induced by SNAP involving p21Ras survival pathway.
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PMID:Nitric oxide induces thioredoxin-1 nuclear translocation: possible association with the p21Ras survival pathway. 1691 15


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