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 immunosuppressant rapamycin inhibited proliferation of the H4IIEC hepatoma cell line. Rapamycin, but not its structural analog FK506, also inhibited the basal and insulin-stimulated activity of the p70 ribosomal protein S6 kinase. By contrast, insulin stimulation of the p85 Rsk S6 kinase and mitogen-activated protein (MAP) kinase activity were unaffected by drug. Rapamycin treatment of COS cells transfected with recombinant p70 S6 kinase completely inhibited the appearance of the hyperphosphorylated form of p70 S6 kinase concomitant with the inhibition of enzyme activity toward 40S subunits. Thus, rapamycin inhibits a signal transduction element that is necessary for the activation of p70 S6 kinase and mitogenesis but unnecessary for activation of p85 Rsk S6 kinase or MAP kinase.
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PMID:Rapamycin-induced inhibition of the 70-kilodalton S6 protein kinase. 138 Jan 82

The molecular structure of a rat hepatoma 70-kDa insulin/mitogen-stimulated S6 protein kinase, obtained by molecular cloning, is compared to that of a rat homolog of the 85-kDa Xenopus S6 protein kinase alpha; both kinases were cloned from H4 hepatoma cDNA libraries. The 70-kDa S6 kinase (calculated molecular mass of 59,186 Da) exhibits a single catalytic domain that is most closely related in amino acid sequence (56% identity) to the amino-terminal, kinase C-like domain of the rat p85 S6 kinase (calculated molecular mass of 82,695 Da); strong similarity extends through a further 67 residues carboxyl-terminal to the catalytic domain (40% identity), corresponding to a region also conserved among the kinase C family. Outside of this segment of approximately 330 amino acids, the structures of the p70 and p85 S6 kinases diverge substantially. The p70 S6 kinase is known to be activated through serine/threonine phosphorylation by unidentified insulin/mitogen-activated protein kinases. A model for the regulation of p70 S6 protein kinase activity is proposed wherein the low activity of the unphosphorylated enzyme results from the binding of a basic, inhibitory pseudosubstrate site (located carboxyl-terminal to the extended catalytic domain) to an acidic substrate binding region (located amino-terminal to the catalytic domain); substrate binding is thereby prevented. S6 kinase activation requires displacement of this inhibitory segment, which is proposed to occur consequent to its multiple phosphorylation. The putative autoinhibitory segment contains several serine and threonine residues, each followed directly by a proline residue. This motif may prevent autophosphorylation but permit transphosphorylation; two of these serine residues reside in a maturation promoting factor (MPF)/cdc-2 consensus motif. Thus, hormonal regulation of S6 kinase may involve the action of MPF/cdc-2 or protein kinases with related substrate specificity.
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PMID:Molecular structure of a major insulin/mitogen-activated 70-kDa S6 protein kinase. 223 64

Previous studies have shown that the noncatalytic carboxy-terminal tail of the p70 S6 kinase (amino acids 422 to 525) contains an autoinhibitory pseudosubstrate domain that is phosphorylated in situ during activation and in vitro by mitogen-activated protein kinases. The present study shows that a recombinant p70 deleted of the carboxy-terminal tail (p70 delta CT104) nevertheless exhibits a basal and serum-stimulated 40S kinase activity and susceptibility to inhibition by wortmannin very similar to those of the parent, full-length p70 kinase. Carboxy-terminal deletion reduces the extent of maximal inhibition produced by rapamycin, from > 95% in the full-length p70 to 60 to 80% in p70 delta CT104, without altering the sensitivity to rapamycin inhibition (50% inhibitory concentration of 2 nM). Serum activation of p70 delta CT104, as with the parent, full-length p70, is accompanied by an increase in 32P content (about twofold) in situ and a slowing in electrophoretic mobility; both modifications are inhibited by pretreatment with wortmannin or rapamycin. 32P-peptide maps of p70 delta CT104 show multisite phosphorylation, and wortmannin and rapamycin appear to cause preferential dephosphorylation of the same subset of sites. Thus, it is likely that activation of the kinase requires phosphorylation of p70 at sites in addition to those previously identified in the carboxy-terminal tail. Evidence that the carboxy-terminal tail actually functions as a potent intramolecular inhibitor of kinase activity in situ is uncovered by deletion of a short acidic segment (amino acids 29 to 46) from the p70 amino-terminal noncatalytic region. Deletion of amino acids 29 to 46 causes a >95% inhibition of p70 activity despite continue phosphorylation of the carboxy-terminal tail in situ; additional deletion of the carboxy-terminal tail (yielding p70 delta 29-46/ delta CT104) increases activity 10-fold, to a level approaching that of p70 delta CT104. Deletion of residues 29 to 46 also abolishes completely the sensitivity of p70 to inhibition by rapamycin but does not alter the susceptibility to activation by serum of inhibition by wortmannin. Although the mechanisms underlying the effects of the delta 29-46 deletion are not known, they are not attributable to loss of the major in situ p70 phosphorylation site at Ser-40. Thus, activation of the p70 S6 kinase involves multiple, independent inputs directed at different domains of the p70 polypeptide. Disinhibition from the carboxy-terminal tail requires, in addition to its multisite phosphorylation, an activating input dependent on the presence of amino acids 29 to 46; this p70-activating input may be the same as that inhibited by rapamycin but is distinct from that arising from the wortmannin-inhibitable phosphatidylinositol 3-kinase. In addition, as exemplified by the rapamycin-resistant but mitogen- and wortmannin-sensitive p70 delta 29-46/ delta CT104 mutant, a further activating input, which probably involves site-specific phosphorylation in the segment between amino acids 46 to 421, is necessary.
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PMID:Multiple independent inputs are required for activation of the p70 S6 kinase. 773 16

Independent of its ability to block translation, anisomycin intrinsically initiates intracellular signals and immediate-early gene induction [L. C. Mahadevan and D. R. Edwards, Nature (London) 349:747-749, 1991]. Here, we characterize further its action as a potent, selective signalling agonist. In-gel kinase assays show that epidermal growth factor (EGF) transiently activates five kinases: the mitogen-activated protein (MAP) kinases ERK-1 and -2, and three others, p45, p55, and p80. Anisomycin, at inhibitory and subinhibitory concentrations, does not activate ERK-1 and -2 but elicits strong sustained activation of p45 and p55, which are unique in being serine kinases whose detection is enhanced with poly-Glu/Tyr or poly-Glu/Phe copolymerized in these gels. Translational arrest using emetine or puromycin does not activate p45 and p55 but does prolong EGF-stimulated ERK-1 and -2 activation. Rapamycin, which blocks anisomycin-stimulated p70/85S6k activation without affecting nuclear responses, has no effect on p45 or p55 kinase. p45 and p55 are activable by okadaic acid or UV irradiation, and both kinases phosphorylate the c-Jun NH2-terminal peptide 1-79, putatively placing them within c-Jun NH2-terminal kinase/stress-activated protein kinase (JNK/SAPK) subfamily of MAP kinases. Thus, the EGF- and anisomycin-activated kinases p45 and p55 are strongly implicated in signalling to c-fos and c-jun, whereas the MAP kinases ERK-1 and -2 are not essential for this process.
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PMID:Anisomycin-activated protein kinases p45 and p55 but not mitogen-activated protein kinases ERK-1 and -2 are implicated in the induction of c-fos and c-jun. 793 49

The mitogen response of p70/p85 S6 kinase (S6K) parallels that of mitogen-activated protein kinases (MAPK). However, S6K lies on a discrete signaling pathway from MAPK, since the immunosuppressant drug rapamycin inactivates S6K without affecting the MAPK cascade. Phosphatidylinositol 3-kinase operates upstream of S6K, but the intermediate effectors in this signaling pathway are unknown. We have identified an autoinhibitory domain in S6K that overrides the requirement of the amino terminus for the activation of S6K. The region between codons 58 and 77 is highly inhibitory, and its deletion results in constitutive kinase activation. Additionally, deletion of the first 77 codons confers mitogen independence and insensitivity to rapamycin. Rat1 cells expressing delta N77 S6K exhibit a distinctly abnormal morphology. This constitutively active mutant will provide a useful means of studying the effects of expressing unregulated S6K in cells. Subdeletion analysis of the amino terminus has defined two discrete domains in the N terminus of S6K--a domain between codons 1 and 58 is essential for the mitogen activation of S6K and confers rapamycin sensitivity; a second domain between codons 58 and 77 confers autoinhibition. We propose a model for the activation of S6 kinase in which mitogen-stimulated cellular factors interact with the amino terminus to negate the effects of the autoinhibitory domain.
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PMID:Constitutive activation of S6 kinase by deletion of amino-terminal autoinhibitory and rapamycin sensitivity domains. 852 22

Tyrosine phosphorylation of insulin receptor substrate 1 (IRS-1) by the activated receptors for insulin, IGF-1, and various cytokines creates binding sites for signaling proteins with Src homology 2 domains (SH2 proteins). Determining the role of specific SH2 proteins during insulin signaling has been difficult because IRS-1 possesses as many as 18 potential tyrosine phosphorylation sites, several of which contain redundant motifs. Using 32D cells, which contain no endogenous IRS proteins, we compared the signaling ability of an IRS-1 molecule in which 18 potential tyrosine phosphorylation sites were replaced by phenylalanine (IRS-1(F18)) with two derivative molecules which retained three YMXM motifs (IRS-1(3YMXM)) or the two COOH-terminal SHP2-Fyn binding sites (IRS-1(YCT)). During insulin stimulation, IRS-1(F18) failed to undergo tyrosine phosphorylation or mediate activation of the phosphotidylinositol (PI) 3'-kinase or p70(s6k); IRS-1(YCT) was tyrosine phosphorylated but also failed to mediate these signaling events. Neither IRS-1(3YMXM) nor IRS-1(YCT) mediated activation of mitogen-activated protein kinases. IRS-1(F18) and IRS-1(YCT) partially mediated similar levels of insulin-stimulated mitogenesis at high insulin concentrations, however, suggesting that IRS-1 contains phosphotyrosine-independent elements which effect mitogenic signals, and that the sites in IRS-l(YCT) do not augment this signal. IRS-1(3YMXM) mediated the maximal mitogenic response to insulin, although the response to insulin was more sensitive with wild-type IRS-1. By contrast, the association of IRS-1(3YMXM) with PI 3'-kinase was more sensitive to insulin than the association with IRS-1. Thus, the binding of SH2 proteins (such as PI 3'-kinase) by YMXM motifs in IRS-1 is an important element in the mitogenic response, but other elements are essential for full mitogenic sensitivity.
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PMID:YMXM motifs and signaling by an insulin receptor substrate 1 molecule without tyrosine phosphorylation sites. 875 13

Interaction of the cell surface integrin receptors with extracellular matrix proteins results in the activation of intracellular signaling pathways, including activation of the p42/p44 mitogen-activated protein kinases. The protein tyrosine kinase focal adhesion kinase, or FAK, is linked to integrin signaling and interacts with several molecules involved in signal transduction. Here we report that exposure of fibroblast cells to extracellular matrix proteins activates the p70/p85 ribosomal S6 kinase (S6K) pathway in a ligand dependent manner. Treatment of cells with inhibitors of phosphatidylinositol 3-kinase, or FRAP (FKBP 12/rapamycin-associated protein) blocks integrin-mediated activation of S6K. In contrast to the integrin-directed activation of the mitogen-activated protein kinases, cytochalasin D treatment does not inhibit S6K activation. Treatment with the protein tyrosine kinase inhibitors herbimycin A and genistein completely blocks S6K activation, indicating a requirement for tyrosine kinase activity. Overexpression of the COOH-terminal noncatalytic domain of FAK, FRNK (FAK-related non-kinase) in chick embryo cells results in a significant reduction in the integrin-mediated activation of S6K and a concomitant reduction in FAK tyrosine phosphorylation. These results indicate at least a partial requirement for FAK in the S6K activation pathway.
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PMID:Integrin-dependent activation of the p70 ribosomal S6 kinase signaling pathway. 893 16

It is well established that mitogens inhibit differentiation of skeletal muscle cells, but the insulin-like growth factors (IGFs), acting through a single receptor, stimulate both proliferation and differentiation of myoblasts. Although the IGF-I mitogenic signaling pathway has been extensively studied in other cell types, little is known about the signaling pathway leading to differentiation in skeletal muscle. By using specific inhibitors of the IGF signal transduction pathway, we have begun to define the signaling intermediates mediating the two responses to IGFs. We found that PD098059, an inhibitor of mitogen-activated protein (MAP) kinase kinase activation, inhibited IGF-stimulated proliferation of L6A1 myoblasts and the events associated with it, such as phosphorylation of the MAP kinases and elevation of c-fos mRNA and cyclin D protein. Surprisingly, PD098059 caused a dramatic enhancement of differentiation, evident both at a morphological (fusion of myoblasts into myotubes) and biochemical level (elevation of myogenin and p21 cyclin-dependent kinase inhibitor expression, as well as creatine kinase activity). In sharp contrast, LY294002, an inhibitor of phosphatidylinositol 3-kinase, and rapamycin, an inhibitor of the activation of p70 S6 kinase (p70(S6k)), completely abolished IGF stimulation of L6A1 differentiation. We found that p70(S6k) activity increased substantially during differentiation, and this increase was further enhanced by PD098059. Our results demonstrate that the MAP kinase pathway plays a primary role in the mitogenic response and is inhibitory to the myogenic response in L6A1 myoblasts, while activation of the phosphatidylinositol 3-kinase/p70(S6k) pathway is essential for IGF-stimulated differentiation. Thus, it appears that signaling from the IGF-I receptor utilizes two distinct pathways leading either to proliferation or differentiation.
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PMID:The mitogenic and myogenic actions of insulin-like growth factors utilize distinct signaling pathways. 904 96

The regulation of mitogenic signalling pathways by G-protein-coupled receptors has been studied in Rat-1 fibroblasts stably transfected with the murine delta opioid receptor. We showed recently that stimulation of this receptor led to the activation of the p42 and p44 isoforms of mitogen-activated protein (MAP) kinase [Burt, Carr, Mullaney, Anderson and Milligan (1996) Biochem. J. 320, 227-235]. The present study has examined the role of the ribosomal S6 kinase p70(s6k) in mitogenic signalling by the delta opioid receptor. Treatment of Rat-1 fibroblasts expressing this receptor with the synthetic enkephalin [d-Ala,d-Leu]-enkephalin (DADLE) led to a dose-dependent increase in p70(s6k) enzyme activity. Activation of p70(s6k) was dependent on the level of delta opioid receptor expressed and was sustained above basal levels for several hours. Immunoblotting revealed that p70(s6k) was subject to increased phosphorylation, the extent of which coincided temporally with enzyme activation. Activation of p70(s6k) by DADLE, but not by platelet-derived growth factor, was blocked by pretreatment of cells with pertussis toxin. Activation of p70(s6k) was also partly blocked by wortmannin, indicating that phosphoinositide 3-OH kinase is required for full activation of p70(s6k) by opioid receptor agonists. Activation of the delta opioid receptor in transfected cells led to increased DNA synthesis. This increase was prevented by rapamycin, which also completely blocked activation of p70(s6k) by DADLE. In addition, prevention of the activation of p42 and p44 MAP kinases also blocked the induction of DNA synthesis by DADLE. These results suggest that the activation of both MAP kinases and p70(s6k) might be crucial to the induction of mitogenic responses by Gi-linked receptors such as the delta opioid receptor.
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PMID:Mitogenic signalling by delta opioid receptors expressed in rat-1 fibroblasts involves activation of the p70s6k/p85s6k S6 kinase. 922 49

Chronic nonneoplastic lung diseases that impair pulmonary oxygenation while increasing the levels of intrapulmonary carbon dioxide (CO2) are a documented risk factor for the development of lung cancer in smokers and nonsmokers. Using established cell lines derived from human small cell lung cancer (SCLC) and non-small cell lung carcinoma, our experiments demonstrated that elevated CO2 concentrations in the range of those found in the diseased lung selectively stimulated the proliferation of SCLC but not adenocarcinoma or squamous cell carcinoma. The proliferative response of SCLC cells involved activation of the mitogen-activated protein kinases ERK-1 and ERK-2, as well as the p70 ribosomal S6 kinase and the stimulation of an autocrine serotonergic loop. Kinase activation was unrelated to changes in intracellular pH. We concluded that CO2 is an important messenger molecule for SCLC which may contribute significantly to the high lung cancer burden observed in individuals with chronic lung disease, by the activation of kinases which play a central role as downstream effectors of many growth factor-stimulated mitogenic pathways.
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PMID:Carbon dioxide, an important messenger molecule for small cell lung cancer. 931 15


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