Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.11.18 (MAP)
 7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A methionine aminopeptidase that specifically removes methionine residues from peptides with amino-terminal sequences of Met-Ala-, Met-Val-, Met-Ser-, Met-Gly-, and Met-Pro- but not Met-Leu- or Met-Lys- has been isolated to homogeneity from porcine liver by a procedure involving five chromatographic steps. The enzyme, whose specificity matches that predicted for the entity responsible for the co-translational amino-terminal processing of nascent polypeptide chains, has a measured molecular mass of 70,000 Da by SDS-polyacrylamide electrophoresis and 67,000 Da by gel chromatography (under nondenaturing conditions), suggesting the native molecule is a monomer. It is activated by Co2+ and inhibited by beta-mercaptoethanol and EDTA. With octapeptide substrates related to the amino-terminal portion of the beta-chain of human hemoglobin (with a histidine in position 3), the enzyme had a pH optimum of 6.0. With a synthetic peptide devoid of histidine, it showed no pH dependence from 6.0 to 8.0. This sensitivity may be due to the propensity of peptides with histidine in the third position to bind divalent cations such as Co2+. The measured Km and kappa cat values were affected by residues in the second position. The peptide corresponding to the natural sequence (Met-Val-His-) gave a kappa cat/Km value of 260 mM-1 s-1; substitution of alanine in the second position raised the kappa cat/Km to 1523 mM-1 s-1, but substitution of proline lowered the value to 130. The effects are primarily on the kappa cat. The substitution of proline (for histidine) in the third position, the mutation found in hemoglobin Long Island, prevents the removal of the methionine residue, as occurs with the mutant protein. The porcine liver enzyme is similar to methionine aminopeptidases isolated from Escherichia coli, Salmonella typhimurium, and yeast in that it also is stimulated by Co2+. However, it is much larger than these enzymes and differs somewhat in specificity, particularly with the yeast enzyme.
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PMID:Isolation and characterization of the methionine aminopeptidase from porcine liver responsible for the co-translational processing of proteins. 132 7

Ligation of the CD3 receptor induces multiple signal transduction events that modify the activation state of the T cell. We have compared two lines that express biologically active CD3 receptors but differ in their biochemical activation pathways during ligation of this receptor. Jurkat cells respond to anti-CD3 with Ca2+ mobilization, PKC activation, induction of protein tyrosine phosphorylation, and activation of newly characterized lymphoid microtubule associated protein-2 kinase (MAP-2K). MAP-2K itself is a 43-kDa phosphoprotein that requires tyrosine phosphorylation for activation. Although ligation of the CD3 receptor in HPB-ALL could stimulate tyrosine phosphorylation of a 59- kDa substrate, there was no associated induction of [Ca2+]i flux, PKC, or MAP-2K activation. A specific PKC agonist, PMA, which bypasses the CD3 receptor, could, however, activate MAP-2K in HPB-ALL cells. This implies that defective stimulation of PKC by the CD3 receptor is responsible for its failure to activate MAP-2K in HPB-ALL. The defect in PKC activation is likely distal to the CD3 receptor as A1F14- failed to activate MAP-2K in HPB-ALL but was effective in Jurkat cells. The stimulatory effect of PMA on MAP-2K activity in HPB-ALL was accompanied by tyrosine phosphorylation of this kinase which implies that PKC may, in some way, regulate tyrosine phosphorylation of MAP-2K. A candidate for this role is pp56lck which underwent posttranslational modification (seen as mobility change on SDS-PAGE) during anti-CD3 and PMA stimulation in Jurkat or PMA treatment in HPB-ALL. There was, in fact, exact coincidence between induction of PKC activity, posttranslational modification of lck and tyrosine phosphorylation/activation of MAP-2K. Lck kinase activity in an immune complex kinase assay was unchanged during PMA treatment. An alternative explanation is that modification of lck may alter its substrate profile. We therefore looked at the previously documented ability of PKC to dissociate lck from the CD4 receptor and found that PMA could reduce the stoichiometry of the lck interaction with CD4 in HPB-ALL and to a lesser extent in Jurkat cells. These results imply the existence of a kinase cascade that is initiated by PKC and, in the course of which, lck and MAP-2K may interact.
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PMID:Protein kinase C plays a role in the induction of tyrosine phosphorylation of lymphoid microtubule-associated protein-2 kinase. Evidence for a CD3-associated cascade that includes pp56lck and that is defective in HPB-ALL. 171 87

Cytoplasmic dynein was purified from pig brain, using a modified version of published procedures, in order to study its interaction with microtubules. Since the preparation produces ATP-dependent sliding of taxol-stabilized purified microtubules over glass and runs on SDS-containing gels as a major band exceeding 300,000 Mr plus a medium chain band at about 75,000 Mr, it is assumed to be identical to the mammalian brain dynein (MAP 1C) purified by Vallee and colleagues. When viewed by electron microscopy in negative stain, individual particles show two distinct configurations. Some are clearly similar to the two-headed bouquet structure already shown for MAP 1C. A larger number of molecules in the present preparation appear to have two heads fused together, forming a dimeric globular particle with two separate tails. They are referred to as phiparticles, because of their resemblance to the greek letter phi. A model for the structural relationship between the two molecular forms is presented. The stems of two associated dynein subunits may separate beyond the base, to form a bouquet, or they may remain fused to form the larger tail of a phi-particle. The smaller tail probably represents a combined pair of features equivalent to the 'stalks' shown to emanate from axonemal dynein heads by Goodenough and colleagues. Both tails of a phi-particle can bind to microtubules, even in the presence of ATP, and cause microtubule bundling. These results suggest a complete structural homology between axonemal and cytoplasmic dynein.
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PMID:Brain dynein crossbridges microtubules into bundles. 253 6

An aminopeptidase specific for methionine (peptidase M) has been purified from wild-type and mutant Salmonella typhimurium strains. Recombinant peptidase M was also purified from Escherichia coli. These preparations were characterized with respect to their physicochemical properties using analytical ultracentrifugation, SDS/PAGE, isoelectric focusing, titration curve analysis, amino acid analysis, N-and C-terminal sequencing and various spectroscopic methods. Peptidase M activity is stimulated by Co2+, in agreement with previous studies using crude extracts of Salmonella. The purified preparations did not contain significant amounts of any metal. Enzymically important metal is loosely associated and lost during enzyme purification. Peptidase M was shown to contain seven free sulphydryl residues none of which are involved in either intra-or inter-molecular disulphide bonds. Most appear solvent-accessible as evidenced by their reactivity under native conditions. Limited modification of the sulphydryl residues with either iodoacetamide or 5,5'-dithiobis(2-nitrobenzoic acid) led to inactivation. Several cysteines were shown to be labelled to various degrees by peptide mapping of inactivated S-[14C]carboxymethylated protein. Whether cysteine modification affects enzymic activity directly (blocking an active site) or indirectly (by causing conformational change) remains to be established.
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PMID:Purification and characterization of a methionine-specific aminopeptidase from Salmonella typhimurium. 265 Nov 23

Several procedures were employed to examine the in vitro interaction between S-100 proteins and microtubule proteins. Binding of S-100 to tau factors was observed under all experimental conditions. S-100 binding to microtubule-associated protein 2 (MAP2) was best detected by exposing nitrocellulose-immobilized MAP2 or MAPs to either 125I-labeled S-100 or biotinylated S-100. S-100 binding to tubulin was detected when the two protein fractions were first incubated with each other followed by exposure to the bifunctional cross-linker disuccinimidylsuberate, and then separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and transfered onto nitrocellulose paper. By this procedure, complex formation between S-100 and tubulin, as well as between S-100 and a relatively low-molecular-weight MAP, was evidenced by immunoblotting using an anti-S-100 antiserum. Alternatively, complex formation between biotinylated S-100 and either tubulin or MAPs was visualized by means of avidin-peroxidase, after SDS-PAGE of the complex mixtures and transfer of the separated proteins onto nitrocellulose. The interaction between S-100 and tubulin was strictly Ca2+ dependent, and resistant to high concentrations of KCl, colchicine, or vinblastine.
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PMID:Molecular interaction of S-100 proteins with microtubule proteins in vitro. 266 85

We have demonstrated the presence of MAP-2 in squirrel fish erythrophores using SDS-PAGE, immunoblot, and immunoprecipitation techniques. The monoclonal antibodies used (AP-9, -13, -14) were raised against distinct antigenic sites on Chinese hamster brain MAP-2. Immunoprecipitation studies demonstrated that all three antibodies bind a 300 K protein found in crude cell extracts and in partially purified MAP fractions isolated from erythrophores of the squirrel fish Holocentrus rufus. Immunofluorescent studies confirmed that the 300 K protein was present in cultured erythrophores. Studies of cells induced to aggregate and disperse their pigment granules revealed that the 300 K protein comigrated with the pigment, suggesting that the 300 K protein may constitute part of the "alpha-cytomatrix" involved in pigment translocations.
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PMID:Evidence that MAP-2 may be involved in pigment granule transport in squirrel fish erythrophores. 329 55

Patients with Kartagener syndrome (KS) show defects in ciliary and flagellar movement that are usually associated with the partial or total absence of dynein side arms from axonemal microtubules. Dynein is essential for such movements, but its involvement in other cellular (particularly microtubule-related) processes is unknown. It has recently been reported that neutrophils from KS patients show impaired motility including responses to chemotactic stimuli, suggesting that dynein-like proteins may be generally involved in motile processes. In support of this, we have now found that spontaneous motility of cultured skin fibroblasts from KS patients is also markedly impaired. Three cell lines derived from skin explants of KS patients with deficient dynein side arms in nasal cilia and eight cell lines derived from normal volunteers were studied. Fibroblasts were seeded into dishes containing colloidal gold-coated cover glasses [Albrecht-Buehler, 1977], incubated for 24h at 37 degrees C, and the area of cell "phagokinetic" tracks determined. Each cell line studied in this manner reproducibly displayed an amount of spontaneous motility characteristic for that cell line. The mean track area (+/- SE) for all control cells studied was 14.6 +/- 0.5 X 10(3) micron2 whereas for KS fibroblasts was 8.7 +/- 0.4 X 10(3) micron2 (P less than 0.001). Immunofluorescence microscopy using antitubulin and antihuman 210 K MAP antibodies revealed no differences in the staining patterns between control and KS fibroblasts. Pinocytic rates were identical, and the complement of tubulin and major microtubule associated proteins as seen on one-dimensional SDS polyacrylamide gel autoradiographs appeared similar for control and KS cells. Thus, the observed motility defect is probably not the result of alterations in the occurrence or distribution of microtubules or in the occurrence or binding of the major microtubule-associated proteins. This defect in cellular motility may be related to the absence of dynein or may reflect another independent cellular defect.
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PMID:Cell motility and microtubules in cultured fibroblasts from patients with Kartagener syndrome. 622 64

We prepared a monoclonal antibody to microtubule-associated protein 1 (MAP 1), one of the two major high molecular weight MAP found in microtubules isolated from brain tissue. We found that MAP 1 can be resolved by SDS PAGE into three electrophoretic bands, which we have designated MAP 1A, MAP 1B, and MAP 1C in order of increasing electrophoretic mobility. Our antibody recognized exclusively MAP 1A, the most abundant and largest MAP 1 polypeptide. To determine the distribution of MAP 1A in nervous system tissues and cells, we examined tissue sections from rat brain and spinal cord, as well as primary cultures of newborn rat brain by immunofluorescence microscopy. Anti-MAP 1A stained white matter and gray matter regions, while a polyclonal anti-MAP 2 antibody previously prepared in this laboratory stained only gray matter. This confirmed our earlier biochemical results, which indicated that MAP 1 is more uniformly distributed in brain tissue than MAP 2 (Vallee, R.B., 1982, J. Cell Biol., 92:435-442). To determine the identity of cells and cellular processes immunoreactive with anti-MAP 1A, we examined a variety of brain and spinal cord regions. Fibrous staining of white matter by anti-MAP 1A was generally observed. This was due in part to immunoreactivity of axons, as judged by examination of axonal fiber tracts in the cerebral cortex and of large myelinated axons in the spinal cord and in spinal nerve roots. Cells with the morphology of oligodendrocytes were brightly labeled in white matter. Intense staining of Purkinje cell dendrites in the cerebellar cortex and of the apical dendrites of pyramidal cells in the cerebral cortex was observed. By double-labeling with antibodies to MAP 1A and MAP 2, the presence of both MAP in identical dendrites and neuronal perikarya was found. In primary brain cell cultures anti-MAP 2 stained predominantly cells of neuronal morphology. In contrast, anti-MAP 1A stained nearly all cells. Included among these were neurons, oligodendrocytes and astrocytes as determined by double-labeling with anti-MAP 1A in combination with antibody to MAP 2, myelin basic protein or glial fibrillary acidic protein, respectively. These results indicate that in contrast to MAP 2, which is specifically enriched in dendrites and perikarya of neurons, MAP 1A is widely distributed in the nervous system.
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PMID:Widespread distribution of the major polypeptide component of MAP 1 (microtubule-associated protein 1) in the nervous system. 636 69

Growth hormone (GH) plays a central role in regulating growth and intermediary metabolism in vertebrates, although the mechanisms by which GH initiates these actions are largely unknown. The GH receptor, a member of the cytokine receptor superfamily, does not demonstrate homology with any known tyrosine kinases. However, addition of GH to cells in vitro has been shown to stimulate tyrosine phosphorylation of various intracellular proteins including mitogen-activated protein kinases (MAP kinases) and the newly described Janus kinase, JAK2. Subsequent steps in GH-mediated signal transduction have not been delineated. In the present study, we have examined early events in GH action in vivo. Hypophysectomized juvenile male rats were treated with GH for 15, 30, or 60 min. Rat liver whole cell and nuclear extracts were prepared and analyzed via SDS-polyacrylamide gel electrophoresis and Western blotting techniques. GH rapidly stimulated the tyrosine phosphorylation of at least 8 nuclear proteins of 205, 91, 83, 80, 65, 53, 44, and 42 kDa, and caused the dephosphorylation of a single approximately 149-kDa protein. Using specific antibodies, we have identified three of these nuclear phosphoproteins as 42- and 44-kDa MAP kinases, and as STAT91, a 91-kDa component of the interferon-stimulated gene factor-3 protein complex. One consequence of the activation of STAT91 in the nucleus is the appearance of GH-stimulated DNA binding activity, as assessed by gel-mobility shift assay using an oligonucleotide containing a c-sis-inducible element from the c-fos promoter. These results show that nuclear protein tyrosine phosphorylation is a prominent early event in GH action in vivo and demonstrate a link between GH-stimulated signal transduction and target gene expression.
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PMID:Rapid changes in nuclear protein tyrosine phosphorylation after growth hormone treatment in vivo. Identification of phosphorylated mitogen-activated protein kinase and STAT91. 751 Jun 76

Phorbol ester tumor promoters (TPA) activate the endogenous erk/MAP kinases and Rsk S6 kinases but not the p70S6 kinase in COS cells. DNA sequences encoding the rat Rsk-1 S6 kinase (homologous to Xenopus rsk alpha), modified by insertion of a peptide epitope at the polypeptide aminoterminus, were expressed transiently in COS cells. TPA stimulates the 40S and peptide kinase activity of the recombinant epitope-tagged Rsk-1, as well as the extent of Rsk-1 autophosphorylation in vitro (32P-Ser >> 32P-Thr). Indications that the conformation of the recombinant Rsk-1 polypeptide is substantially changed after activation by TPA in situ include a retarded mobility of the Rsk-1 polypeptide on SDS-PAGE and the appearance of new 32P-peptides during autophosphorylation in vitro. All these features of the TPA-activated Rsk-1 S6 kinase are abolished by dephosphorylation of the kinase in vitro with Ser/Thr phosphatase-2A. TPA increases 32P incorporation into recombinant Rsk-1 by 2-3-fold (32P-Ser >> 32P-Thr). Peptide mapping exhibits a single major 32P-peptide in Rsk-1 isolated from unstimulated cells and 10-12 additional 32P peptides after TPA treatment in situ. Phosphorylation of basal or phosphatase-2A-treated recombinant Rsk-1 in vitro with erk2/MAP kinase increases Rsk-1 40S kinase, peptide kinase, and autophosphorylating activity, retards migration of Rsk-1 polypeptides on SDS-PAGE, and generates new sites of Rsk-1 autophosphorylation in vitro. By contrast, TPA-activated Rsk-1 is not altered in these properties by autophosphorylation in vitro. By contrast, TPA-activated Rsk-1 is not altered in these properties by phosphorylation in vitro with erk2/MAP kinase. Activation of Rsk-1 in situ with TPA diminishes by over 90% the extent of Rsk-1 phosphorylation achieved in vitro by erk2/MAP kinase, as compared to the parallel phosphorylation of a phosphatase-2A-treated Rsk-1; basal Rsk-1 is intermediate. Peptide maps of phosphatase-2A-treated Rsk-1 after phosphorylation in vitro with erk2/MAP kinase exhibit 32P-peptides that comigrate with nearly all of the 32P-peptides present in TPA-activated-32P Rsk-1 labeled in situ, plus several 32P-peptides characteristic of Rsk-1 autophosphorylation in vitro.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of an epitope-tagged recombinant Rsk-1 S6 kinase by phorbol ester and erk/MAP kinase. 768 67


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