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:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A synthetic peptide modeled after the major threonine (T669) phosphorylation site of the epidermal growth factor (EGF) receptor was an efficient substrate (apparent Km approximately 0.45 mM) for phosphorylation by purified p44mpk, a MAP kinase from sea star oocytes. The peptide was also phosphorylated by a related human MAP kinase, which was identified by immunological criteria as p42mapk. Within 5 min of treatment of human cervical carcinoma A431 cells with EGF or phorbol myristate acetate (PMA), a greater than 3-fold activation of p42mapk was measured. However, Mono Q chromatography of A431 cells extracts afforded the resolution of at least three additional T669 peptide kinases, some of which may be new members of the MAP kinase family. One of these (peak I), which weakly adsorbed to Mono Q, phosphorylated myelin basic protein (MBP) and other MAP kinase substrates, immunoreacted as a 42 kDa protein on Western blots with four different MAP kinase antibodies, and behaved as a approximately 45 kDa protein upon Superose 6 gel filtration. Another T669 peptide kinase (peak IV), which bound more tightly to Mono Q than p42mapk (peak II), exhibited a nearly identical substrate specificity profile to that of p42mapk, but it immunoreacted as a 40 kDa protein only with anti-p44mpk antibody on Western blots, and eluted from Superose 6 in a high molecular mass complex of greater than 400 kDa. By immunological criteria, the T669 peptide kinase in Mono Q peak III was tentatively identified as an active form of p34cdc2 associated with cyclin A. The Mono Q peaks III and IV kinases were modestly stimulated following either EGF or PMA treatments of A431 cells, and they exhibited a greater T669 peptide/MBP ratio than p42mapk. These findings indicated that multiple proline-directed kinases may mediate phosphorylation of the EGF receptor.
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PMID:Identification of epidermal growth factor Thr-669 phosphorylation site peptide kinases as distinct MAP kinases and p34cdc2. 132 Apr 11

In order to determine the effect of calcium mobilization on mitogen-activated protein (MAP) kinase activation, we have treated human foreskin fibroblasts (HSWP cells) and human epidermal carcinoma (A431) cells with thapsigargin. Intracellular free calcium was monitored by single cell image analysis using fura-2 and correlated with MAP kinase stimulation as assessed by immunoprecipitation, kinase renaturation assays and immunoblotting. Thapsigargin stimulated the 44- and 42-kDa MAP kinase isozymes in both cell types with kinetics that were slightly delayed relative to enzyme stimulated by epidermal growth factor. Removal of external calcium did not significantly affect the activation of the MAP kinases by thapsigargin, indicating that intracellular calcium mobilization is sufficient to stimulate the enzymes. However, treatment of cells with EGTA under conditions which deplete both intra- and extracellular calcium inhibited stimulation by thapsigargin but not epidermal growth factor. Stimulation of the MAP kinases by the calcium ionophore ionomycin paralleled the activation observed with thapsigargin in both calcium-containing and calcium-free conditions. These results indicate that there are at least two independent pathways for stimulation of MAP kinase: one that is dependent on intracellular calcium mobilization, and one that is mediated by the tyrosine kinase epidermal growth factor receptor and is calcium-independent.
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PMID:Activation of MAP kinases by calcium-dependent and calcium-independent pathways. Stimulation by thapsigargin and epidermal growth factor. 132 84

ErbB-2 becomes rapidly phosphorylated and activated following treatment of many cell lines with epidermal growth factor (EGF) or Neu differentiation factor (NDF). However, these factors do not directly bind ErbB-2, and its activation is likely to be mediated via transmodulation by other members of the type I/EGF receptor (EGFR)-related family of receptor tyrosine kinases. The precise role of ErbB-2 in the transduction of the signals elicited by EGF and NDF is unclear. We have used a novel approach to study the role of ErbB-2 in signaling through this family of receptors. An ErbB-2-specific single-chain antibody, designed to prevent transit through the endoplasmic reticulum and cell surface localization of ErbB-2, has been expressed in T47D mammary carcinoma cells, which express all four known members of the EGFR family. We show that cell surface expression of ErbB-2 was selectively suppressed in these cells and that the activation of the mitogen-activated protein kinase pathway and p70/p85S6K, induction of c-fos expression, and stimulation of growth by NDF were dramatically impaired. Activation of mitogen-activated protein kinase and p70/p85S6K and induction of c-fos expression by EGF were also significantly reduced. We conclude that in T47D cells, ErbB-2 is a major NDF signal transducer and a potentiator of the EGF signal. Thus, our observations demonstrate that ErbB-2 plays a central role in the type I/EGFR-related family of receptors and that receptor transmodulation represents a crucial step in growth factor signaling.
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PMID:Single-chain antibody-mediated intracellular retention of ErbB-2 impairs Neu differentiation factor and epidermal growth factor signaling. 753 77

The HBx protein of hepatitis B virus (HBV) is a transcriptional activator that is required for infection and may play an important role in HBV-associated hepatocarcinogenesis. Recently, we and others have shown that HBx stimulates the Ras-Raf-MAP kinase cascade, which leads to enhanced cell proliferation and the activation of transcription factors AP-1 and NF-kappa B. Other studies have shown that HBx can activate transcription by interacting directly with nuclear components of the transcription machinery. Therefore we examined the basis for the different reported activities of HBx. Here, we show that HBx is a complex protein, displaying independent activities in different intracellular locations. The intracellular distribution of HBx protein was first investigated using scanning confocal laser immunomicroscopy and by genetic studies. Our work has established that HBx expressed in cultured cells is found authentically in both the cytoplasm and the nucleus. HBx is not strongly associated with any intracellular structures, but some preferential accumulation was observed near the cell surface. Next, HBx variants were constructed containing a functional or mutant nuclear localization sequence. We show that when HBx is engineered to relocate exclusively to the nucleus, it no longer activates the Ras-Raf-MAP kinase cascade, nor does it activate transcription factors AP-1 and NF-kappa B. Surprisingly, nuclear HBx fully retains the ability to stimulate HBV enhancer I, which is activated independently of the Ras and protein kinase C pathways. Therefore HBx protein stimulates signal transduction pathways in the cytoplasm and transactivates transcription elements in the nucleus. Furthermore, SV40 T antigen is shown to induce the nuclear sequestration of HBx protein and to block its activation of NF-kappa B, demonstrating that HBx is regulated by proteins that alter its intracellular distribution. The conflicting functions of HBx protein in viral infection and possibly carcinoma may involve the regulation of its differential distribution in the cell.
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PMID:The hepatitis B virus HBx protein is a dual specificity cytoplasmic activator of Ras and nuclear activator of transcription factors. 758 4

The present study was undertaken to determine the identities and characteristics of proteins with molecular masses between 40 and 44 kDa whose tyrosine phosphorylation increases in human neutrophils following stimulation of these cells with tumour necrosis factor alpha (TNF-alpha) and granulocyte-macrophage colony-stimulating factor (GM-CSF). Immunoblotting results demonstrate that addition of GM-CSF to human neutrophils increases the tyrosine phosphorylation of two proteins with molecular masses of 42 and 44 kDa. However, the addition of TNF-alpha to neutrophils induces a time- and dose-dependent increase in tyrosine phosphorylation of a 40 kDa protein. Immunoprecipitation using specific mitogen-activated protein kinase (MAPK) isoform antibodies and an antibody which recognizes phosphotyrosine-containing proteins demonstrated that the 42 and 44 kDa proteins are isoforms of MAPKs. Utilizing an in situ gel kinase activity assay, GM-CSF increases the kinase activity of the 42 and 44 kDa proteins. Moreover, using immunoprecipitated p42 and p44 MAPK isoforms in this gel assay revealed activity associated with the p42 and p44 MAPK isoforms. Using the same in situ assay, TNF-alpha induces an increase in kinase activity of a 40-42 kDa protein. However, the 40 kDa protein whose phosphorylation on tyrosine residues increased in human neutrophils following stimulation with TNF-alpha is not a member of the known MAPK family, demonstrating the divergences in pathways utilized by GM-CSF and TNF-alpha. This 40 kDa protein may be related to the recently identified protein that becomes phosphorylated on tyrosine residues upon stimulation of the human epidermal carcinoma cell line KB by interleukin-1. In these cells the p40 protein is part of a protein kinase cascade which results in the phosphorylation of the small heat shock protein, hsp27.
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PMID:Effects of granulocyte-macrophage colony-stimulating factor and tumour necrosis factor-alpha on tyrosine phosphorylation and activation of mitogen-activated protein kinases in human neutrophils. 771 91

Many of the effects of growth factors or hormones are mediated through the activation of protein kinase cascades. In this regard, it is well established that the activity of several protein kinases can be dramatically increased when cells are treated with a variety of stimuli. Since 1987, there have been several reports demonstrating that the activity of casein kinase II (CKII) can be acutely increased by hormones or growth factors. However, these are a number of discrepancies regarding the activation of CKII. In this study, we have examined CKII activities in extracts prepared from cells following treatment with stimuli that had been previously shown to elicit dramatic increases in CKII activity. Human WI.38 diploid lung fibroblasts were stimulated with serum or a variety of other stimuli including insulin, platelet-derived growth factor, fibroblast growth factor, epidermal growth factor, or phorbol myristate acetate. Human A431 epidermal carcinoma cells were similarly treated with epidermal growth factor. No reproducible increases in CKII activity were observed in response to any of these treatments. By comparison, a dramatic increase in kinase activity towards a synthetic peptide based on phosphorylation sites within the ribosomal S6 protein was consistently measured. Our observations indicate that CKII is not regulated in a similar manner by growth factors as are the protein kinases of the MAP kinase cascade, e.g., MAP kinase itself or ribosomal protein S6 kinase.
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PMID:Regulation of casein kinase II by growth factors: a reevaluation. 773 11

The Ras protein is involved in tyrosine kinase signal transduction pathway steps such as EGFR signalling. Most human pancreatic carcinomas harbor a point mutation of K-ras oncogene and overexpress transforming TGF-alpha. We studied how K-ras gene mutation could influence the EGFR signal transduction mechanism and the autonomous proliferation of pancreatic carcinoma cells, using PANC-1 human pancreatic carcinoma line and W1-38 normal human fibroblast cell line as a control. PANC-1 cells responded to neither EGF nor exogenous TGF-alpha, although anti-TGF-alpha MAb suppressed their growth. Expression of TGF-alpha mRNA was detected only in PANC-1 cells, which confirmed EGFR being within an autocrine loop. Ras protein and MAP kinase were constitutively activated in PANC-1 cells so that the cells did not respond to treatment with staurosporine or herbimycin A, and exhibited slight response to EGF stimulation. PANC-1 cells harbored K-ras gene mutation in codon 12. In contrast, EGF stimulation induced an elevation of GTP-bound ratio to Ras protein and an activation of MAP kinase with accelerated growth in W1-38 cells. From these findings, we concluded that K-ras gene mutation possibly plays an important role in the autonomous proliferation of PANC-1 pancreatic carcinoma cells, and that an autocrine loop represented by TGF-alpha and EGFR may further accelerate the growth of PANC-1 cells.
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PMID:An effect of K-ras gene mutation on epidermal growth factor receptor signal transduction in PANC-1 pancreatic carcinoma cells. 876 May 97

Our recent studies have implicated the TGF-alpha/epidermal growth factor receptor pathway in the genesis of testosterone (T) and estradiol-17 beta (E2)-induced dysplasia in the dorsolateral prostate (DLP) of Noble rats. This pathway was also found to be markedly up-regulated in the androgen-independent transplantable carcinoma that arose from the DLP of a Noble rat. In the current study, we investigated the expression of mitogen-activated protein kinase (MAP-kinase) and mitogen-activated kinase phosphatase-1 (MKP-1), key downstream regulators of growth factor-activated signal transduction in the DLP of castrated, castrated T-supplemented, and T+E2-treated rats and in the androgen-independent transplantable carcinoma. Both MAP-kinase and MKP-1 expression in the DLP were found to be dependent on androgen stimulation. Immunoblots of DLP from T+E2 treated rats demonstrated a selective decline in MKP-1 levels with no alteration in MAP-kinase expression. These findings suggest that the dual hormone treatment induces changes in the signal transduction pathway, which favors the protracted mitogenic action of MAP-kinase. In situ hybridization and immunohistochemistry findings corroborated the immunoblot data but also revealed that both MAP-kinase and MKP-1 were strongly expressed in severely dysplastic lesions, which may indicate the presence of transformed cells in these foci. In this regard, both proteins were strongly expressed in samples of the androgen-independent transplantable carcinoma. Taken together, results from this and our recent study suggest that alterations in a growth factor-MAP-kinase pathway may be important events in the initiation and progression of prostatic carcinoma.
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PMID:Mitogen-activated protein kinase and mitogen-activated kinase phosphatase-1 expression in the Noble rat model of sex hormone-induced prostatic dysplasia and carcinoma. 880 59

(+)-Limonene (d-limonene) and related monoterpenes show chemopreventive activity against rodent mammary carcinoma and inhibit the growth of cancer cells in vitro. One suggested mechanism for the anti-tumorigenic effect of (+)-limonene is inhibition of the post-translational isoprenylation of growth controlling Ras oncoproteins. We have here examined the growth inhibitory effect of (+)-limonene and other related monoterpenes on PANC-1 pancreas carcinoma cells (carrying a K-ras mutation) and on 12V-H-ras-transformed rat fibroblasts. (+)- and (-)-perillyl alcohol, 7-methyl-perillyl alcohol, (+)-limonene oxide and (+)-perillic acid methyl ester were all found to efficiently inhibit cell growth at 1 mM, whereas (+)-limonene caused an approximately 50% growth reduction at 5 mM. Whereas BZA-5B, an inhibitor of Ras farnesyl transferase, was found to induce morphological reversion of 12V-H-ras-transformed cells, (+)-perillyl alcohol and (+)-limonene did not induce reversion. Furthermore, monoterpenes did not decrease MAP kinase enzyme activity or collagenase promoter activity in PANC-1 cells, two functions known to be down-stream from Ras. We conclude that although effective in inhibiting the growth of tumor cells harboring activated ras oncogenes, limonene and (+)-perillyl alcohol are unlikely to act by inhibiting Ras function.
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PMID:Inhibition of tumor cell growth by monoterpenes in vitro: evidence of a Ras-independent mechanism of action. 882 11

c-Jun NH2-terminal protein kinase (JNK), a member of the mitogen-activated protein kinase family, is activated in response to many stressful stimuli including heat shock, UV irradiation, protein synthesis inhibitors, and inflammatory cytokines. In this study, we investigated whether JNK plays a role in the cellular response to different drugs commonly used in cancer chemotherapy. Treatment of human KB-3 carcinoma cells with Adriamycin resulted in a time- and dose-dependent activation of JNK of up to 40-fold. Treatment with vinblastine or etoposide (VP-16) also activated JNK, with maximum increases of 6.5- and 4.3-fold, respectively. Consistent with these findings, increased c-Jun phosphorylation was observed after drug treatment of cells. In contrast, none of the drugs significantly activated the extracellular response kinase/mitogen-activated protein kinase pathway. Since these drugs are transport substrates for the MDR1 gene product, P-glycoprotein, JNK was assayed in two multidrug-resistant (MDR) KB cell lines, KB-A1 and KB-V1, selected for resistance to Adriamycin and vinblastine, respectively. Relative to KB-3 cells, basal JNK activity was increased 7-fold in KB-A1 cells and 4-fold in KB-V1 cells, with no change in JNK protein expression, indicating that JNK is present in a more highly activated form in the MDR cell lines. Under conditions optimal for JNK activation, Adriamycin, vinblastine, and VP-16 all induced MDR1 mRNA expression in KB-3 cells. Our findings suggest that JNK activation is an important component of the cellular response to several structurally and functionally distinct anticancer drugs and may also play a role in the MDR phenotype.
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PMID:Role of the stress-activated/c-Jun NH2-terminal protein kinase pathway in the cellular response to adriamycin and other chemotherapeutic drugs. 894 82


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