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: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expanded mouse blastocysts incubated with 1 to 2 microM methylmercury (MeHg) in modified Eagle's basal medium (BME + AA), which contains amino acids, collapsed and degenerated within 24 h. In contrast, blastocysts incubated with the same concentration of MeHg in egg culture medium (ECM), which does not contain amino acids, survived and remained expanded as control embryos did. By systematically omitting each BME amino acid from BME + AA and adding each BME amino acid to egg culture medium, we determined that L-cystine (0.5 mM in BME + AA) was the component of BME + AA that was responsible for the enhancement of the toxicity of MeHg. The shortest incubation time during which the cystine-enhanced MeHg toxicity became irreversible was 2 h, and the addition of any of the neutral BME amino acids (except threonine) or non-BME neutral amino acids (alanine, glycine, or serine) during the 2 h incubation eliminated or reduced the cystine-enhanced MeHg toxicity. Basic amino acids (except histidine) were less effective in protecting embryos: Glutamine and lysine reduced the toxic effect only slightly, and arginine had no effect. DL-buthionine sulfoximine (7.5 mM), a specific inhibitor of glutathione, also reduced cystine-enhanced MeHg toxicity. It therefore appears that cystine enhances MeHg toxicity indirectly, at least in part, by stimulating the synthesis of cellular glutathione, which may in turn enhance MeHg transport. In the absence of cystine, 10 microM MeHg (2 h incubation) was necessary to cause the collapse and degeneration of all blastocysts treated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhancement of methylmercury toxicity by L-cystine in cultured mouse blastocysts. 298 Mar 93

Microcystin-LR (MCLR) is a cyanobacterial hepatotoxin that inhibits intracellular serine/threonine protein phosphatases causing disruption of actin microfilaments (MFs) and intermediate filaments (IFs) in hepatocytes. This study compared the effects of MCLR on the organization of MFs, IFs, and microtubules (MTs) in hepatocytes and nonhepatocyte cell lines and determined the sequence of toxin-induced changes in these cytoskeletal components. Rat renal epithelial cells and fibroblasts were incubated with MCLR at 100 or 200 microM for 6-18 hr. Rat hepatocytes in primary culture were exposed to the toxin at 1 or 10 microM for 2-64 min. Cells were fixed and incubated with primary antibodies against beta-tubulin, actin, and vimentin or cytokeratin IFs, followed by gold-labeled secondary antibodies with silver enhancement of the gold probe. The fraction of fibroblasts and hepatocytes with altered cytoskeletal morphology was evaluated as a function of MCLR dose and exposure time to assess the sequence of changes in cytoskeletal components. Changes in fibroblasts and some hepatocytes were characterized initially by disorganization of IFs, followed rapidly by disorganization of MTs, with the progressive collapse of both cytoskeletal components around cell nuclei. Many hepatocytes exhibited MT changes prior to effects on IF structure. Alterations in MFs occurred later and included initial aggregation of actin under the plasma membrane, followed by condensation into rosette-like structures and eventual complete collapse into a dense perinuclear bundle. The similarity of effects among different cell types suggests a common mechanism of action, but the independent kinetics of IF and MT disruption in hepatocytes suggests that there may be at least 2 sites of phosphorylation that lead to cytoskeletal alterations.
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PMID:Alterations in microtubules, intermediate filaments, and microfilaments induced by microcystin-LR in cultured cells. 765 55

Steroidogenesis in granulosa cells can be stimulated by gonadotropic hormones and substances elevating cAMP. This cAMP-dependent metabolic event can be enhanced by peptide growth factors such as insulin, insulin-like growth factor, and epidermal growth factor, but the mechanism of cooperation between these two different signaling pathways is not yet clear. We have tested whether enhancement of tyrosine phosphorylation by vanadate, which blocks tyrosine phosphatases, is able to mimic the effect of growth factors on cAMP-induced steroidogenesis and investigated the cellular components involved in such modulation. Ortho- and metavanadate at 0.1-1.0 mM, when added to primary granulosa cell cultures, stimulated by gonadotropic hormones or forskolin, enhanced progesterone production by 1.5- to 9.0-fold within 120 min. Pervanadate showed a similar effect on steroidogenesis at a concentration one order of magnitude lower than ortho- or meta-vanadate. Phenylarsine-oxide, another blocker of tyrosine phosphatase, stimulated forskolin-induced steroidogenesis by 2.5-fold at 30 microM. In contrast, okadaic acid and calyculin A, which block specifically serine and threonine phosphatase, had no effect on steroidogenesis, when used at concentrations of 1 microM and 10 nM, respectively. The stimulation by vanadate was associated with a pronounced change in cell shape and total collapse of the actin network, which retracts to form a few large actin aggregates of 1-7 microns in diameter in the perinuclear region as revealed by visualization of actin by rhodamine-phalloidin staining under the fluorescent microscope. Steroidogenesis is not affected in cells treated with vanadate alone; the effect of vanadate on the actin cytoskeleton is much less pronounced. Electron microscopy of ultra-thin sections showed massive breakdown of thin filament cables in cells stimulated with vanadate together with gonadotropic hormone or forskolin. Massive clustering of lipid droplets and mitochondria as well as sharp increase in the electron-density of mitochondrial matrix was also observed in the stimulated cells. The action of vanadate in cAMP-stimulated cells leads to massive tyrosine phosphorylation of intracellular proteins in the range of 22-200 kilodaltons. It is suggested that the cross-talk between the cAMP pathway and tyrosine phosphorylation, which leads to enhanced steroidogenesis may be mediated by phosphorylation of cytoskeleton or associated proteins. The marked changes in lipid droplet-mitochondria interaction suggests that this enhanced steroidogenesis is due in part to mobilization of cholesterol into mitochondria in cells costimulated with vanadate and gonadotropins.
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PMID:Cross-talk between adenylate cyclase activation and tyrosine phosphorylation leads to modulation of the actin cytoskeleton and to acute progesterone secretion in ovarian granulosa cells. 768 57

The neuronal growth-associated protein GAP-43 is expressed maximally during development and regeneration, and is enriched at the cytosolic surface of the growth cone membrane. GAP-43 can activate the GTP-binding protein G(o) which is also a major component of the growth cone membrane. These findings have led to the hypothesis that GAP-43 might modulate neurite outgrowth by altering G-protein activity. Here we define the sequence requirements for GAP-43 amino terminal peptide stimulation of G(o), and test these peptides as potential modulators of neurite outgrowth. The first 10 amino acids of GAP-43, Met-Leu-Cys-Cys-Met-Arg-Arg-Thr-Lys-Gln, stimulate G(o). Substitutions at particular residues reveal that cys3, cys4, arg6, and lys9 are critical, but arg7 is not. Both the GAP-43(1-10) peptide and the G-protein-activating peptide mastoparan induce growth cone collapse and inhibit neurite extension from embryonic chick dorsal root ganglion and retinal neurons. This is likely to be mediated by G-proteins: pertussis toxin blocks the inhibition, and mutant peptides that do not activate G(o) do not alter outgrowth. In contrast to the case with embryonic chick dorsal root ganglion cells, neurite outgrowth from N1E-115 neuroblastoma cells is stimulated by GAP-43(1-10). This is probably also a G-protein-mediated event because it is blocked by pertussis toxin, because the sequence requirements match those for G(o) stimulation, and because mastoparan stimulates outgrowth from these cells. The longer GAP-43(1-25) peptide does not alter neurite outgrowth unless the cells are permeabilized, suggesting an intracellular site of action. These data identify a novel set of compounds that modulate neurite outgrowth, and also support the notion that GAP-43 can alter neurite extension by modulating pertussis toxin-sensitive G-protein activity in the growth cone.
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PMID:GAP-43 amino terminal peptides modulate growth cone morphology and neurite outgrowth. 808 50

The hepatitis A virus cellular receptor 1 (HAVcr-1) cDNA codes for a class I integral membrane glycoprotein, termed havcr-1, of unknown natural function which serves as an African green monkey kidney (AGMK) cell receptor for HAV. The extracellular domain of havcr-1 has an N-terminal Cys-rich region that displays homology with sequences of members of the immunoglobulin superfamily, followed by a Thr/Ser/Pro (TSP)-rich region characteristic of mucin-like O-glycosylated proteins. The havcr-1 glycoprotein contains four putative N-glycosylation sites, two in the Cys-rich region and two in the TSP-rich region. To characterize havcr-1 and define region(s) involved in HAV receptor function, we expressed the TSP-rich region in Escherichia coli fused to glutathione S-transferase and generated antibodies (Ab) in rabbits (anti-GST2 Ab). Western blot analysis with anti-GST2 Ab detected 62- and 65-kDa bands in AGMK cells and 59-, 62-, and 65-kDa bands in dog cells transfected with the HAVcr-1 cDNA (cr5 cells) but not in dog cells transfected with the vector alone (DR2 cells). Treatment of AGMK and cr5 cell extracts with peptide-N-glycosidase F resulted in the collapse of the havcr-1-specific bands into a single band of 56 kDa, which indicated that different N-glycosylated forms of havcr-1 were expressed in these cells. Treatment of AGMK and cr5 cells with tunicamycin reduced binding of protective monoclonal Ab (MAb) 190/4, which suggested that N-glycans are required for binding of MAb 190/4 to havcr-1. To test this hypothesis, havcr-1 mutants lacking the N-glycosylation motif at the first site (mut1), second site (mut2), and both (mut3) sites were constructed and transfected into dog cells. Binding of MAb 190/4 and HAV to mut1 and mut3 cells was highly reduced, while binding to mut2 cells was not affected and binding to dog cells expressing an havcr-1 construct containing a deletion of the Cys-rich region (d1- cells) was undetectable. HAV-infected cr5 and mut2 cells but not mut1, mut3, d1-, and DR2 cells developed the characteristic cytoplasmic granular fluorescence of HAV-infected cells. These results indicate that the Cys-rich region of havcr-1 and its first N-glycosylation site are required for binding of protective MAb 190/4 and HAV receptor function.
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PMID:The Cys-rich region of hepatitis A virus cellular receptor 1 is required for binding of hepatitis A virus and protective monoclonal antibody 190/4. 955 57

To investigate the molecular mechanisms of the 'gain of toxic function' of mutant Cu/Zn superoxide dismutase (SOD) associated with familial amyotrophic lateral sclerosis (FALS), mutant (Ala 4 --> Thr, Gly 85 --> Arg, Gly 93 --> Ala, and two base-pair deletion in the 126th codon), as well as wild-type (wt), Cu/Zn SODs were expressed in COS7 cells. The formation of granular cytoplasmic aggregates accompanied by collapse of the cytoplasm was observed in cells expressing mutant (mt) Cu/Zn SODs, but not in cells expressing wt Cu/Zn SOD. The aggregates contained ribosome-like particles and endoplasmic reticulum. These results suggest the possibility that mt Cu/Zn SODs promote the formation of aggregates which are toxic to cells.
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PMID:Formation of granular cytoplasmic aggregates in COS7 cells expressing mutant Cu/Zn superoxide dismutase associated with familial amyotrophic lateral sclerosis. 985 58

Epidermolytic hyperkeratosis (EHK) is a congenital, autosomal dominant disorder of cornification characterized by hyperkeratosis and blister formation. The clinical manifestations are heterogeneous, with respect to the extent of body surface involvement, palmar and plantar hyperkeratosis and the presence of erythroderma. Point mutations in the genes encoding the suprabasal-specific keratins, keratins 1 and 10 have been identified in EHK patients. The inappropriate amino acid substitutions cause a collapse of the keratin filament network, resulting in cytolysis of the involved keratinocytes. We report a severe case of EHK with a single base pair mutation that causes a threonine for asparagine substitution in residue 8 (N8T) of the 1A region of the keratin 1 protein. This is the region involved in molecular overlaps between neighboring keratin heterodimers. These findings suggest that even conservative amino acid substitutions in overlap regions can cause tonofilament clumping.
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PMID:An asparagine to threonine substitution in the 1A domain of keratin 1: a novel mutation that causes epidermolytic hyperkeratosis. 1023 3

After uptake and intracellular multiplication of Legionella pneumophila in MRC-5 lung fibroblasts, important cytoskeletal filament structures, like actin, tubulin, or vimentin, and a cell membrane-associated fibronectin were rearranged during early infection, resulting in a loss of cell adhesion and collapse of the cytoskeleton. Dysregulation of the cellular phosphorylation and dephosphorylation cascade may contribute to the observed changes and may support intracellular survival and multiplication of L. pneumophila. We therefore studied expression of phosphoproteins during intracellular growth of L. pneumophila. By using an anti-tyrosine phosphoprotein antibody we showed that proteins phosphorylated on tyrosine residues accumulated progressively during late infection exclusively around or in phagosomes filled with bacteria. In contrast, expression of serine/threonine phosphoproteins did not change. To discern the origin of phosphorylated proteins, the host cells were treated with cycloheximide, an inhibitor of eukaryotic protein synthesis. The newly synthesized proteins were labeled metabolically with [(35)S]methionine-cysteine and immunoprecipitated with a phosphotyrosine-specific antibody. Sodium dodecyl sulfate gel electrophoresis gave evidence for synthesis of at least three protein clusters (160 to 200, 35 to 60, and 19 to 28 kDa) of Legionella origin that were phosphorylated on tyrosine residues 24 h after infection. Treatment of infected host cells with genistein, a tyrosine kinase inhibitor, revealed that tyrosine protein phosphorylation was not important for bacterial uptake but contributed to intracellular growth of L. pneumophila. Bacterial tyrosine phosphoproteins and the observed intracellular structural changes may be important to understanding the process involved in intracellular growth of L. pneumophila.
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PMID:Legionella pneumophila invasion of MRC-5 cells induces tyrosine protein phosphorylation. 1045 91

We previously identified Rho-associated protein kinase (Rho-kinase) as a specific effector of Rho. In this study, we identified collapsin response mediator protein-2 (CRMP-2), as a novel Rho-kinase substrate in the brain. CRMP-2 is a neuronal protein whose expression is up-regulated during development. Rho-kinase phosphorylated CRMP-2 at Thr-555 in vitro. We produced an antibody that specifically recognizes CRMP-2 phosphorylated at Thr-555. Using this antibody, we found that Rho-kinase phosphorylated CRMP-2 downstream of Rho in COS7 cells. Phosphorylation of CRMP-2 was observed in chick dorsal root ganglion neurons during lysophosphatidic acid (LPA)-induced growth cone collapse, whereas the phosphorylation was not detected during semaphorin-3A-induced growth cone collapse. Both LPA-induced CRMP-2 phosphorylation and LPA-induced growth cone collapse were inhibited by Rho-kinase inhibitor HA1077 or Y-32885. LPA-induced growth cone collapse was also blocked by a dominant negative form of Rho-kinase. On the other hand, semaphorin-3A-induced growth cone collapse was not inhibited by a dominant negative form of Rho-kinase. Furthermore, overexpression of a mutant CRMP-2 in which Thr-555 was replaced by Ala significantly inhibited LPA-induced growth cone collapse. These results demonstrate the existence of Rho-kinase-dependent and -independent pathways for growth cone collapse and suggest that CRMP-2 phosphorylation by Rho-kinase is involved in the former pathway.
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PMID:Phosphorylation of collapsin response mediator protein-2 by Rho-kinase. Evidence for two separate signaling pathways for growth cone collapse. 1081 93

The enamel protein amelogenin binds to the GlcNAc-mimicking peptide (GMp) (Ravindranath, R. M. H., Tam, W., Nguyen, P., and Fincham, A. G. (2000) J. Biol. Chem. 275, 39654-39661). The GMp motif is found in the N-terminal region of CK14, a differentiation marker for ameloblasts. The binding affinity of CK14 and amelogenin was confirmed by dosimetric binding of CK14 to recombinant amelogenin (rM179), and to the tyrosine-rich amelogenin polypeptide. The specific binding site for CK14 was identified in the amelogenin trityrosyl motif peptide (ATMP) of tyrosine-rich amelogenin polypeptide and specific interaction between CK14 and [(3)H]ATMP was confirmed by Scatchard analysis. Blocking rM179 with GlcNAc, GMp, or CK14 with ATMP abrogates the CK14-amelogenin interaction. CK14 failed to bind to ATMP when the third proline was substituted with threonine, as in some cases of human X-linked amelogenesis imperfecta or when tyrosyl residues were substituted with phenylalanine. Morphometry of developing teeth distinguished three phases of enamel formation; growth initiation phase (days 0-1), prolific growth phase (days 1-7), and growth cessation phase (post-day 7). Confocal microscopy revealed co-assembly of CK14/amelogenin in the perinuclear region of ameloblasts on day 0, migration of the co-assembled CK14/amelogenin to the apical region of the ameloblasts from day 1, reaching a peak on days 3-5, and a collapse of the co-assembly. Autoradiography with [(3)H]ATMP and [(3)H]GMp corroborated the dissociation of the co-assembly at the ameloblast Tomes' process. It is proposed that CK14 play a chaperon role for nascent amelogenin polypeptide during amelogenesis.
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PMID:Amelogenin-cytokeratin 14 interaction in ameloblasts during enamel formation. 1142 63


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