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Query: EC:2.4.2.30 (
PARP
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13,611
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ligand binding to the platelet-derived growth factor (PDGF) receptor initiates a complex and diverging cascade of signaling pathways. GTP-binding proteins with intrinsic GTPase activity (G-proteins) frequently link cell surface receptors to intracellular signaling pathways, but no close associations of the PDGF receptor and any small G-proteins, nor any such associations activated by ligand binding to the receptor have been previously reported. We demonstrate that a
small GTP-binding protein
binds specifically to the murine and human PDGF type-beta receptor. In response to PDGF-BB stimulation, there is an increase in the amount of labeled small G-protein associated with the PDGF type-beta receptor. The GTP-binding protein did not undergo ligand-induced association with a mutant receptor protein that was unable to bind ATP. Proteolytic cleavage analysis, together with two-dimensional separation techniques, identified the small G-protein specifically associating with the PDGF type-beta receptor after ligand binding as a member of the Rho family. This was confirmed by demonstration that the small G-protein coimmunoprecipitated by the anti-PDGF receptor antibody was a substrate for the
ADP-ribosyltransferase
C3 exoenzyme. Thus, the PDGF type-beta receptor may form a complex with one or more small G-proteins upon binding PDGF-BB, and the Rho small G-protein is likely to be an important component of the proteins making up the multimeric signaling complex of the PDGF type-beta receptor.
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PMID:A small GTP-binding protein, Rho, associates with the platelet-derived growth factor type-beta receptor upon ligand binding. 761 21
Sand dollar eggs were microinjected with botulinum C3 exoenzyme, an
ADP-ribosyltransferase
from Clostridium botulinum that specifically ADP-ribosylates and inactivates rho proteins. C3 exoenzyme microinjected during nuclear division interfered with subsequent cleavage furrow formation. No actin filaments were detected in the equatorial cortical layer of these eggs by rhodamine-phalloidin staining. When microinjected into furrowing eggs, C3 exoenzyme rapidly disrupted the contractile ring actin filaments and caused regression of the cleavage furrows. C3 exoenzyme had no apparent effect on nuclear division, however, and multinucleated embryos developed from the microinjected eggs. By contrast, C3 exoenzyme did not affect the organisation of cortical actin filaments immediately after fertilisation. Only one protein (molecular weight 22,000) was ADP-ribosylated by C3 exoenzyme in the isolated cleavage furrow. This protein co-migrated with ADP-ribosylated rhoA derived from human platelets when analysed by two-dimensional gel electrophoresis. These results strongly suggest that a rho-like,
small GTP-binding protein
is selectively involved in the organisation and maintenance of the contractile ring.
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PMID:A rho-like protein is involved in the organisation of the contractile ring in dividing sand dollar eggs. 808 30
Evidence is accumulating that rho p21, a ras p21-related
small GTP-binding protein
(G protein), regulates the actomyosin system. The actomyosin system is known to be essential for cell motility. In the present study, we examined the action of rho p21, its inhibitory GDP/GTP exchange protein (named rho GDI), its stimulatory GDP/GTP exchange protein (named smg GDS), and Clostridium botulinum
ADP-ribosyltransferase
C3, known to selectively ADP-ribosylate rho p21 and to impair its function, in cell motility (chemokinesis) of Swiss 3T3 cells. We quantitated the capacity of cell motility by measuring cell tracks by phagokinesis. Microinjection of the GTP gamma S-bound active form of rhoA p21 or smg GDS into Swiss 3T3 cells did not affect cell motility, but microinjection of rho GDI into the cells did inhibit cell motility. This rho GDI action was prevented by comicroinjection of rho GDI with the GTP gamma S-bound form of rhoA p21 but not with the same form of rhoA p21 lacking the C-terminal three amino acids which was not posttranslationally modified with lipids. The rho GDI action was not prevented by Ki-rasVal-12 p21 or any of the GTP gamma S-bound form of other small GTP-binding proteins including rac1 p21, G25K, and smg p21B. Among these small G proteins, rhoA p21, rac1 p21, and G25K are known to be substrates for rho GDI. The rho GDI action was not prevented by comicroinjection of rho GDI with smg GDS. Microinjection of C3 into Swiss 3T3 cells also inhibited cell motility. These results indicate that the rho GDI-rho p21 system regulates cell motility, presumably through the actomyosin system.
...
PMID:Involvement of rho p21 and its inhibitory GDP/GTP exchange protein (rho GDI) in cell motility. 841 62
Evidence is accumulating that the rho family, a member of the ras p21-related
small GTP-binding protein
superfamily, regulates cell morphology, cell motility, and smooth muscle contraction through the actomyosin system. The actomyosin system is also known to be essential for cytoplasmic division of cells (cytokinesis). In this study, we examined the action of rho p21, its inhibitory GDP/GTP exchange protein, named rho GDI, its stimulatory GDP/GTP exchange protein, named smg GDS, and botulinum
ADP-ribosyltransferase
C3, known to selectively ADP-ribosylate rho p21 and to impair its function, in the cytoplasmic division using Xenopus embryos. The sperm-induced cytoplasmic division of Xenopus embryos was not affected by microinjection into the embryos of either smg GDS or the guanosine-5'-(3-O-thio)triphosphate (GTP gamma S)-bound form of rhoA p21, one member of the rho family, but completely inhibited by microinjection of rho GDI or C3. Under these conditions, nuclear division occurred normally but the furrow formation, which was induced by the contractile ring consisting of actomyosin just beneath the plasma membrane, was impaired. Comicroinjection of rho GDI with the GTP gamma S-bound form of rhoA p21 prevented the rho GDI action. Moreover, the sperm-induced cytoplasmic division of Xenopus embryos was inhibited by microinjection into the embryos of the rhoA p21 pre-ADP-ribosylated by C3 which might serve as a dominant negative inhibitor of endogenous rho p21. These results indicate that rho p21 together with its regulatory proteins regulates the cytoplasmic division through the actomyosin system.
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PMID:Regulation of cytoplasmic division of Xenopus embryo by rho p21 and its inhibitory GDP/GTP exchange protein (rho GDI). 843 90
Specific receptors for brain-gut peptide hormones, cholecystokinin (CCK) and gastrin, are expressed in a variety of human tumor cells. CCK and gastrin promote the growth of NIH3T3 cells into which the CCK-B/gastrin receptor had been introduced via a eukaryotic expression vector. In this study, we have examined the effect of CCK-8 on the actin cytoskeleton by using two mouse fibroblast cell lines expressing human CCK-B/gastrin receptors. Treatment with very low concentration of CCK-8 (10(-10) M) induced the formation of actin stress fibers within one minute. Stress fiber formation increased for 30 min. In contrast, a potent mitogen for fibroblasts, platelet-derived growth factor (PDGF), initially induced membrane ruffling and, later, a weak formation of stress fibers. Microinjection of rho GDP dissociation inhibitor or Clostridium botulinum
ADP-ribosyltransferase
C3 which is known to impair the function of a
small GTP-binding protein
, rho p21, inhibited the stress fiber formation by CCK-8 as well as by PDGF. These results indicate that CCK-B/gastrin receptor could regulate stress fiber formation in a rho p21-dependent manner. The signals from CCK-B/gastrin receptor might affect cell growth as well as cell motility or adhesion by regulating the actin cytoskeleton.
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PMID:Cholecystokinin-B/gastrin receptors mediate rapid formation of actin stress fibers. 864 38
The expression of staphylococcal epidermal cell differentiation inhibitor (EDIN), an
ADP-ribosyltransferase
targeting the
small GTP-binding protein
rho p21, was examined using Bacillus subtilis. A recombinant plasmid, containing B. licheniformis alpha-amylase promoter flanking either a beta-glucanase or a B. cereus sphingomyelinase signal sequence, and a DNA fragment corresponding to mature EDIN were constructed and used to transform B. subtilis KN2. Transformants were designated ED7 and ED8, respectively. ED7 extracellularly produced recombinant protein, which was purified to homogeneity through column chromatography using SP-Toyopearl 650 cation-exchange gel and the HA1000 hydroxyapatite HPLC column. ED8 did not grow in broth culture. Biochemical and biological studies of purified protein revealed that ED7 produced a correctly processed recombinant EDIN, indistinguishable from natural EDIN.
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PMID:Expression and purification of epidermal cell differentiation inhibitor (EDIN) from Bacillus subtilis. 951 71
Adhesion of tumor cells to host cell layers and subsequent migration are pivotal steps in cancer invasion and metastasis. The
small GTP-binding protein
RhoA controls cell adhesion and motility through organization of the actin cytoskeleton and regulation of actomyosin contractility. Cultured rat MM1 hepatoma cells migrate through a mesothelial cell monolayer in vitro in a serum-dependent, RhoA-mediated manner (K. Yoshioka et al., J. Biol. Chem., 273: 5146-5154, 1998). Furthermore, the ROCK family of RhoA-associated serine-threonine protein kinases is involved in this migration, and an inhibitor for these kinases effectively inhibits the invasion of MM1 cells in vitro and in vivo (K. Itoh et al., Nat. Med., 5: 221-225, 1999). Although there have been no reports of genetic alterations directly affecting RhoA in human cancer, the expression level of RhoA in tumors has been several times higher than that of surrounding normal tissue; RhoA was especially highly expressed in the metastatic region. To determine whether RhoA is activated by its overexpression, we made stable transfectants of MM1 cells expressing various levels of wild-type human RhoA. These transfectants showed promoted invasive ability in vitro in the absence and presence of 1-oleoyl-lysophosphatidic acid, marked adherence to the plastic culture dish with scattered shape, elevated phosphorylation of Mr 20,000 myosin light chain, and translocation of RhoA protein from the cytosol to the membrane. All of these phenotypes were similar to those of active RhoA transfectants, correlated with the expression level of RhoA and reversed by the treatment of the cells with Clostridium botulinum exoenzyme C3
ADP-ribosyltransferase
. In addition, overexpression of wild-type RhoA in MM1 cells also conferred invasive ability in vivo after the cells were transplanted into the syngeneic rats. Thus, high expression of RhoA in the cell facilitates the translocation of this protein to the membrane, where it is activated, resulting in the stimulation of the RhoA-ROCK-actomyosin system, leading to invasion.
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PMID:Overexpression of small GTP-binding protein RhoA promotes invasion of tumor cells. 1021 13
Clostridium botulinum C3 exoenzyme inactivates the
small GTP-binding protein
family Rho by ADP-ribosylating asparagine 41, which depolymerizes the actin cytoskeleton. C3 thus represents a major family of the bacterial toxins that transfer the ADP-ribose moiety of NAD to specific amino acids in acceptor proteins to modify key biological activities in eukaryotic cells, including protein synthesis, differentiation, transformation, and intracellular signaling. The 1.7 A resolution C3 exoenzyme structure establishes the conserved features of the core NAD-binding beta-sandwich fold with other ADP-ribosylating toxins despite little sequence conservation. Importantly, the central core of the C3 exoenzyme structure is distinguished by the absence of an active site loop observed in many other ADP-ribosylating toxins. Unlike the ADP-ribosylating toxins that possess the active site loop near the central core, the C3 exoenzyme replaces the active site loop with an alpha-helix, alpha3. Moreover, structural and sequence similarities with the catalytic domain of vegetative insecticidal protein 2 (VIP2), an actin
ADP-ribosyltransferase
, unexpectedly implicates two adjacent, protruding turns, which join beta5 and beta6 of the toxin core fold, as a novel recognition specificity motif for this newly defined toxin family. Turn 1 evidently positions the solvent-exposed, aromatic side-chain of Phe209 to interact with the hydrophobic region of Rho adjacent to its GTP-binding site. Turn 2 evidently both places the Gln212 side-chain for hydrogen bonding to recognize Rho Asn41 for nucleophilic attack on the anomeric carbon of NAD ribose and holds the key Glu214 catalytic side-chain in the adjacent catalytic pocket. This proposed bipartite ADP-ribosylating toxin turn-turn (ARTT) motif places the VIP2 and C3 toxin classes into a single ARTT family characterized by analogous target protein recognition via turn 1 aromatic and turn 2 hydrogen-bonding side-chain moieties. Turn 2 centrally anchors the catalytic Glu214 within the ARTT motif, and furthermore distinguishes the C3 toxin class by a conserved turn 2 Gln and the VIP2 binary toxin class by a conserved turn 2 Glu for appropriate target side-chain hydrogen-bonding recognition. Taken together, these structural results provide a molecular basis for understanding the coupled activity and recognition specificity for C3 and for the newly defined ARTT toxin family, which acts in the depolymerization of the actin cytoskeleton. This beta5 to beta6 region of the toxin fold represents an experimentally testable and potentially general recognition motif region for other ADP-ribosylating toxins that have a similar beta-structure framework.
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PMID:Crystal structure and novel recognition motif of rho ADP-ribosylating C3 exoenzyme from Clostridium botulinum: structural insights for recognition specificity and catalysis. 1111 50
Nerve growth factor, retinoic acid, dibutyryl cAMP, ganglioside G(Q1b), and botulinum C3 exoenzyme were evaluated for their neural differentiating potential on human neuroblastoma GOTO cells. C3 exoenzyme is an
ADP-ribosyltransferase
inactivating Rho protein (a
small GTP-binding protein
). C3 exoenzyme caused the fastest differentiation of GOTO cells into neural cells and induced the strongest network of the cells. Fasudil, an inhibitor of Rho-kinase, induced outgrowth of the neurites in the GOTO cells. Calyculin A, an inhibitor of phosphatases including myosin phosphatase, counteracted C3 exoenzyme-induced neurite outgrowth of the cells. These findings suggest that differentiation of GOTO cells triggered by C3 exoenzyme is attained via inactivation of Rho protein, inhibition of Rho-kinase, and activation of myosin phosphatase. Because of the strong differentiating potential of C3 exoenzyme, the transduction pathway consisting of Rho protein, Rho-kinase, and myosin phosphatase seems to be main stream in the neural differentiation of GOTO cells. A single GOTO cell was observed continuously after treatment with C3 exoenzyme. The cell started to change shape from its original morphology only 15 min after treatment with C3 exoenzyme, and it was completely spherical within 60 min. Neurites appeared on the membrane of the cell 2 hr after the treatment and then gradual outgrowth began. These observations are fundamental information in elucidating the mechanism of neural differentiation, especially at an early stage.
...
PMID:Neural differentiation of human neuroblastoma GOTO cells via a Rho-Rho kinase-phosphorylation signal transduction and continuous observation of a single GOTO cell during differentiation. 1728 98
