EC:3.4.11.18 - FACTA Search

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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)

Many growth factors upon stimulation of their receptors induce the activity of extracellular signal-regulated kinases, ERKs, also known as MAP kinases. Several of these growth factors also activate the ras proto-oncogene product, p21ras (Ras), by stimulating the conversion of the inactive GDP-bound form of Ras to the active GTP-bound form. We have shown that direct introduction of p21ras oncoprotein into cells in the absence of growth factors activates ERKs within five minutes, which indicates that normal p21ras may be involved in the activation of ERKs by growth factors. Here we use a recombinant vaccinia virus expressing an interfering mutant of p21ras, RasAsn17, to investigate this question. In NIH3T3 cells that overexpress the insulin receptor, this recombinant virus inhibits insulin-induced activation of ERK2 completely, but there is no inhibition of insulin-induced activation of phosphatidylinositol-3-kinase. In rat-1 cells the recombinant virus inhibited ERK2 activity induced by platelet-derived growth factor (PDGF) but not by phorbol ester. We conclude that p21ras mediates insulin- and PDGF-induced activation of ERK2.
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PMID:Involvement of p21ras in activation of extracellular signal-regulated kinase 2. 144 47

The kinetic pathway of microtubule depolymerization at 0 degrees C has been examined. Microtubules made of MAP-containing and MAP-free tubulins were depolymerized at 0 degree C in the presence of [3H]GDP or [3H]GTP or of trace amounts of 125I dimeric tubulin. The products of depolymerization were separated on a column, their structures were identified by electron microscopy, and the time course of incorporation of 3H or 125I labels in the different components of the system was determined. Two predominant assembly states of tubulin found in the nonmicrotubule state were alpha-beta dimers and double rings. Kinetic data indicate that ring formation from disassembling microtubules does not occur by direct coiling of protofilaments as previously thought, but disassembling GDP subunits are in very rapid equilibrium with curved oligomers that are kinetic intermediates in the isodesmic assembly of GDP-tubulin. The formation of oligomers and rings from dimers, at concentrations as low as 10 microM, is much faster than nucleotide exchange on alpha-beta-tubulin. Disassembly of double rings, in contrast, is slower than nucleotide exchange on alpha-beta-tubulin, by 1 order of magnitude in the absence of MAPs and 2 orders of magnitude in the presence of MAPs. These results support the model proposed previously to explain spontaneous oscillations in microtubule assembly. They are consistent with the existence of an equilibrium between two conformations of tubulin, "straight", i.e., microtubule forming, and "curved", i.e., ring forming, under the allosteric control of bound nucleotide. The straight conformation requires the presence of two ionizable hydroxyls on the gamma-phosphate in GTP or GDP-Pi.
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PMID:Cold depolymerization of microtubules to double rings: geometric stabilization of assemblies. 260 48

The removal of tightly bound GDP from the exchangeable nucleotide-binding site of tubulin has been performed with alkaline phosphatase under conditions which essentially retain the assembly properties of the protein. When microtubule protein is treated with alkaline phosphatase, nucleotide is selectively removed from tubulin dimer rather than from MAP (microtubule-associated protein)-containing oligomeric species. Tubulin devoid of E-site (the exchangeable nucleotide-binding site of the tubulin dimer) nucleotide shows enhanced proteolytic susceptibility of the beta-subunit to thermolysin and decreased protein stability, consistent with nucleotide removal causing changes in protein tertiary structure. Pyrophosphate ion (3 mM) is able to promote formation of normal microtubules in the complete absence of GTP by incubation at 37 degrees C either with nucleotide-depleted microtubule protein or with nucleotide-depleted tubulin dimer to which MAPs have been added. The resulting microtubules contain up to 80% of tubulin lacking E-site nucleotide. In addition to its effects on nucleation, pyrophosphate competes weakly with GDP bound at the E-site. It is deduced that binding of pyrophosphate at a vacant E-site can promote microtubule assembly. The minimum structural requirement for ligands to induce tubulin assembly apparently involves charge neutralization at the E-site by bidentate ligation, which stabilizes protein domains in a favourable orientation for promoting the supramolecular protein-protein interactions involved in microtubule formation.
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PMID:Tubulin-nucleotide interactions. Effects of removal of exchangeable guanine nucleotide on protein conformation and microtubule assembly. 303 51

GDP reduces both the rate and amplitude of GTP-induced assembly of microtubules from tubulin dimer or from microtubule protein, and promotes disassembly from microtubules at the steady state. One interpretation postulates that added GDP modifies microtubule ENDS so that tubulin-GTP, the species involved in steady state elongation of microtubules, cannot bind to a microtubule END containing tubulin-GDP. This concept has been used in subsequent models of assembly which treat the 'dynamic instability' of microtubules. We question this interpretation on the basis of the published experimental data and the results reported here. Using a relatively simple model for microtubule assembly, we show by numerical simulation that the quantitative effects of GDP on the rate and amplitude of microtubule assembly and inhibition of steady state GTPase activity are well accounted for by the nucleotide exchange equilibrium of tubulin-GDP and tubulin-GTP. We therefore conclude that the effect of added GDP on elongation of MAP-containing microtubules and on steady state GTPase activity does not indicate modification of the activity of microtubule ENDs but depends on the tubulin-GTP/tubulin-GDP equilibrium. Additional evidence argues that microtubule ENDS containing GDP can indeed accept elongation by tubulin-GTP.
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PMID:Inhibition of microtubule elongation by GDP. 371 9

The synthesis of dolichyl diphosphate oligosaccharide was studied by incubating rat liver microsomes (microsomal fractions) with GDP-[14C]mannose, UDP-glucose, UDP-N-acetylglucosamine and [3H]dolichol phosphate. The labelled products obtained by the first step of extraction of the microsomes in methanolic aqueous phase (MAP fraction in chloroform/methanol/water; 3:2:1, by vol.) and in CMW fraction (chloroform/methanol/water; 10:10:3, by vol.) obtained by extraction of the interphase after the first step of extraction were analysed on a DEAE-cellulose column. With the progress of incubation, the radioactivity in unchanged GDP-mannose decreased, whereas the labelled dol-P-P-oligo in the MAP fraction increased about 5-6-fold. The lipid oligosaccharide in this fraction accounted for about 50-60% of the GDP-mannose used, whereas the recovery of the labelled lipid oligosaccharide in the CMW fraction was about 10%. The lipid oligosaccharide from both reactions after mild acid hydrolysis were analysed by gel filtration on Bio-Gel P-4. The oligosaccharide from the MAP fraction gave a peak of higher Mr distinctly separate from the lower-Mr peak obtained from the CMW fraction. Microsomes incubated with labelled lipid oligosaccharide from the MAP fraction showed incorporation of the label into endogenous protein.
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PMID:Recovery of dolichyl diphosphate oligosaccharide in methanolic aqueous phase prepared from rat liver microsomal fractions. 379 96

Members of the Ras superfamily of proteins function as regulated GDP/GTP switches that cycle between active GTP-complexed and inactive GDP-complexed states. Guanine nucleotide exchange factors (GEFs) stimulate formation of the GTP-bound state, whereas GTPase activating proteins (GAPs) catalyze the formation of the GDP-bound state. We describe three studies that evaluate the mechanism of action of GEFs for Ras (SOS1 and RasGRF/CDC25) or Ras-related Rho (Dbl and Vav) proteins. Growth factor-mediated activation of Ras is believed to be mediated by activation of Ras GEFs (CDC25/GRF and SOS1/2). Although the mechanisms of Ras GEF regulation are unclear, recent studies suggest that translocation of SOS1 to the plasma membrane, where Ras is located, might be responsible for Ras activation. Our observation that the addition of the Ras plasma membrane-targeting sequence to the catalytic domains of CDC25 and SOS1 greatly enhanced their transforming and transactivation activities (10-50 fold and 5-10 fold, respectively) suggests that membrane translocation alone is sufficient to potentiate GEF activation of Ras. We have determined that two Ras-related proteins, designated R-Ras and R-Ras2/TC21, can trigger the malignant transformation of NIH 3T3 cells via activation of the Ras signal transduction pathway. Furthermore, like Ras and R-Ras, we observed that TC21 GTPase activity was stimulated by Ras GAPs. However, we observed that both SOS1 and CDC25 were activators of normal TC21, but not R-Ras, transforming activities. Therefore, TC21, but not R-Ras, may be activated by the same extracellular signaling events that activate Ras proteins. Dbl family proteins are believed to function as GEFs and activators of the Ras-related Rho family of proteins. However, one Dbl family oncogene, designated Vav, has been reported to be a GEF for Ras proteins. Therefore we were interested in determining whether Dbl family oncogenes cause transformation by triggering the constitutive activation of Rho or Ras proteins. Our results suggest that Dbl oncogenes cause transformation via a Ras-independent activation of MAP kinases and Rho family proteins.
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PMID:Guanine nucleotide exchange factors: activators of Ras superfamily proteins. 860 78

The main source of insulin-like growth factor I (IGF-I) postnatally is the liver, under growth hormone stimulation, although IGF-I is already present in embryonic tissues and in fetal serum, when its expression is independent of growth hormone. The extracellular alpha-subunit of the IGF-I receptor (IGF-IR) contains an IGF-I binding domain, and the beta-subunit possesses tyrosine kinase activity, which is greatly enhanced when IGF-I binds to the alpha-subunit and leads to its autophosphorylation. Insulin receptor substrate 1 (IRS-1) is the most well characterized cellular substrate for IGF-I, containing at least 20 potential tyrosine phosphorylation sites. The tyrosine phosphorylated form of IRS-1 acts as a docking protein by associating SH2-containing proteins including the p85 regulatory subunit of phosphatidylinositol-3-kinase (P13-kinase), the protein tyrosine phosphatase SH-PTP2, the SH2- and SH3-containing adaptor protein Nck and the growth factor receptor-bound protein-2 (Grb2/Sem5) protein. Grb2 is found associated with mSOS, a GTP/GDP exchange factor involved in converting the inactive Ras-GDP to the active Ras-GTP. The p85 regulatory subunit of PI3-kinase can be also a direct in vitro substrate of the IGF-IR. Although IRS-1 is the major substrate of the IGF-IR, there is another early phosphotyrosine substrate termed SHC, which also activates Ras via Grb2-mSos complex. Activation of p21-Ras induces a serine/threonine kinase cascade leading to the activation of MAP-kinases. The importance of IGF-I as a mitogen throughout development has been clearly demonstrated in IGF-I and IGF-IR knockout mouse studies and also in transgenic mice over-expressing IGF-I. IGF-I is a mitogen in many cell types in culture such as T lymphocytes, chondrocytes or osteoblasts and it is considered to be a progression factor in mouse fibroblasts. IGF-I is also involved in muscle, neurons and adipogenic differentiation of mesenchymal cells. However, IGF-I induces proliferation and differentiation in fetal brown adipocytes, suggesting that both cellular processes are not necessarily mutually exclusive in fetal cells.
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PMID:IGF-I: a mitogen also involved in differentiation processes in mammalian cells. 869 95

Ras proteins play a central role in the control of cellular proliferation. They are 189 amino acid monomeric GTP-binding proteins that cycle between an inactive GDP-bound and the active GTP-bound state, and carry a slow intrinsic GTPase activity. Ras proteins are activated by growth promoting signals incoming from receptor tyrosine kinases via SH2 domain and SH3 domain containing adapter proteins and the Ras exchange factor Sos, as well as from serpentine receptors via the beta gamma subunits of heterotrimeric G proteins and the Ras exchange factor Ras-GRF (or Cdc25). Proteins that can stimulate the GTPase activity of Ras (GAPs) ensure that following mitogenic stimulations, they return to their inactive GDP-bound state; amongst these proteins are p120-GAP, neurofibomin (the product of the susceptibility gene to type I neurofibromatosis), as well as the inositol 1,3,4,5-tetrakisphosphate-dependent GAPIP4BF. Several effectors have been identified that mediate the biological effects of Ras. The serine/threonine kinase Raf-1, as well as the closely related protein B-Raf, elicit the ERK cascade of MAP kinases. Phosphatidylinositol-3-OH kinase is involved in the activation of the Rac/Rho family proteins that play a role in the control of actin polymerisation, as well as in growth control, RalGDS, RGL and Rlf, are responsible for the activation of the Ras-related protein Ral. Recent evidence, using effector domain mutants of Ras, demonstrates that these pathways cooperate to elicit the growth promoting effects of Ras proteins.
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PMID:[Isoprenylated proteins and cell proliferation: regulators and effectors of Ras proteins]. 925 47

The aim of these investigations was to identify a number of molecular markers that correlate to growth stimulation by IGF-I. For this purpose, we have selected four cell lines that respond equally well to growth stimulation by serum, but differ in their proliferative response to IGF-I. Two cell lines (R503 and R600 cells) respond to IGF-I with both DNA synthesis and cell division, a third cell line (R508 cells) can enter S phase after IGF-I, but the cells do not divide, and a fourth one (R12 cells) totally fails to respond to IGF-I with growth. Using these cell lines, all of which had an intact mitogenic response program to serum, we show that: (1) an increase in GTP/GDP ratio is an early event that distinguishes cells capable of entering S phase after IGF-I from cells that do not; (2) all cells that are induced to synthesize DNA by IGF-I have increased phosphorylation of MAP kinases, regardless of their ability to divide; (3) the same cell lines display a similar increase in cyclin A and B expression at early times after stimulation; and (4) cyclin levels and cyclin B-associated cdc2 kinase activity remain elevated at later times only in cells that undergo cell division. These results establish certain parameters of IGF-I-mediated mitogenesis and clearly separate the occurrence of DNA synthesis from cell division in certain situations.
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PMID:Molecular markers of IGF-I-mediated mitogenesis. 966 33

Small GTPase ras and heterotrimeric G proteins composed of alpha, beta and gamma subunits are members of a superfamily of regulatory GTP hydrolases. They function as molecular switches which cycle between an inactive GDP-bound state and an active GTP-bound state, and are involved in regulatory biological processes from the outside of the cell to its interior. Binding of GTP triggers conformational changes in switch regions, which enable alpha subunit and ras to interact with effector molecules. Beta gamma dimers dissociated from alpha subunit are signaling molecules in their own rights. These G proteins activate various signal transduction pathways including activation of MAP kinases, phosphoinositide 3-kinases and small GTPases.
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PMID:[Structures and functions of small GTPase and heterotrimeric G proteins]. 970 49

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