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

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

We have studied asteroid bodies (ABs) of multinucleated giant cells (MGCs) in a series of sarcoid and foreign body granulomas with a standard streptavidin-biotin peroxidase technique, using commercial antibodies against collagen, vimentin and tubulin on routinely processed tissue as well as, in one case, on fresh frozen sections (FS). Our findings clearly indicate that ABs are products of the microtubule (MT) system and lack collagen. The tubulin in them stains in fresh FS but is "masked" in formalin-fixed tissue. It can be fully "unmasked" by dephosphorylation and partially by trypsinization. Compared to single microtubule organizing centers (MTOCs) in mononuclear cells serving as internal controls, ABs are obvious replicas of centrosome-nucleated MT assemblies from which they differ principally by the disproportionate size of their components and by the invariable vacuolation of the surrounding cytoplasm. Relying on bits of relevant information gleaned from the literature, our observations support the following preliminary conclusions: 1) spokes are massive bundles of MTs rich in tyrosinated alpha-tubulin coassembled in phosphorylated linkages with yet unidentified microtubule associated proteins (MAPs) and probably microfilament proteins; cores are masses of pericentriolar material including amorphous tubulins, MAPs, phosphoproteins and phospholipids; 2) their size, at least in some ABs, appears to indicate the presence of overlapping centrosome-nucleated MTOCs which in monocyte-derived MGCs are known to be multiple; 3) the cytoplasmic vacuolations around them reflect a collapse and retraction of intermediate filaments (IFs), indicating substantial ongoing MT depolymerization with disruption of MT-IF interactions; 4) ABs are products of unusual MTOC dynamics characterized by simultaneous MT assembly and depolymerization; such a phenomenon, termed "microtubule catastrophe", has been recognized in vitro with centrosome-nucleated MT assemblies under conditions of low tubulin concentrations.
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PMID:Asteroid bodies: products of unusual microtubule dynamics in monocyte-derived giant cells. An immunohistochemical study. 789 35

A protein of M(r) 210,000 was identified in 3T3 cells by immunoblotting and by immunoprecipitation with a monoclonal antibody MA-01. The protein was thermolabile and was located on 3T3 microtubules prepared by taxol-driven polymerization in vitro. On fixed cells the MA-01 antigen was located on interphase and mitotic microtubular structures, vinblastine paracrystals, taxol bundles and colcemid-resistant microtubules. Microinjection experiments with purified MA-01 antibody followed by double immunofluorescence have shown that the injection of antibody led to disruption of vimentin filaments, whereas the distribution of cytoplasmic microtubules was unchanged. The collapse of vimentin filaments started 30 minutes after injecting the antibody at immunoglobulin concentrations 2 mg ml-1 or higher and reached its maximum 3-6 hours after the injection. Within 20 hours after the injection vimentin filaments became reconstituted. Microinjection of the antibody into cells pre-treated with vinblastine resulted in localization of the MA-01 antigen on vinblastine paracrystals as well as on coiled vimentin filaments. The data presented suggest that the MA-01 antigen is a new microtubule-interacting protein that mediates, directly or indirectly, an interaction between microtubules and vimentin intermediate filaments.
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PMID:A microtubule-interacting protein involved in coalignment of vimentin intermediate filaments with microtubules. 790 38

The biological functions of the non-alpha-helical, N- and C-terminal head and tail domains of intermediate filament (IF) proteins are still ill-defined. Previously, it has been shown that the basic, N-terminal head piece of the type III IF protein vimentin is essential for regular IF assembly and that arginine residues within the N-terminus may be involved. In order to identify particular regions within this domain essential for filament formation and stabilization, N-terminally truncated and arginine substitution forms of vimentin were constructed via site-directed in vitro mutagenesis of murine vimentin cDNA. The de novo filament assembly properties of these modified forms were compared with those of wild-type vimentin after transient expression in vimentin-free, cultured cells. In order to investigate their filament assembly competence in vitro, they were also produced in an E. coli expression system. It could be demonstrated that deletion of the first 10, 13, 17, and 32 amino acid residues, respectively, from the N-terminus of vimentin has an increasingly deleterious effect on filament assembly in vitro and network formation in vivo and that, thus, the highly conserved sequence motif, SSYRRXFGG, located in the N-terminus of various IF proteins and partially or totally removed by the above deletions plays a particularly important role in both activities. These results were confirmed and extended by arginine point mutations in the N-terminal head region, which showed that only one of the two adjacent arginine residues located within the conserved sequence motif is essential for filament assembly and stability in vitro as well as network formation in vivo. The neighboring arginine residues could be replaced by lysine residues without severe effects on the assembly properties of the respective mutant proteins. Distinction between the assembly-promoting potentials of the two arginine residues of the N-terminal doublet was considerably facilitated by a Val389-->Asp substitution toward the carboxy-end of the 2B segment of the vimentin rod domain. The synergistic effect of point mutations in this and the N-terminal region of the vimentin molecule implies the interaction of both protein domains in the process of filament assembly. Mutant vimentin proteins that were characterized by distinct incompetence to assemble into IFs caused a massive collapse of the endogenous vimentin filament system when expressed in mouse skin fibroblasts.
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PMID:Structural elements of the amino-terminal head domain of vimentin essential for intermediate filament formation in vivo and in vitro. 802 May 83

Plectin is an intermediate filament (IF) binding protein of exceptionally large size. Its molecular structure, revealed by EM and predicted by its sequence, indicates an NH2-terminal globular domain, a long rodlike central domain, and a globular COOH-terminal domain containing six highly homologous repeat regions. To examine the role of the various domains in mediating plectin's interaction with IFs, we have constructed rat cDNAs encoding truncated plectin mutants under the control of the SV-40 promoter. Mutant proteins expressed in mammalian COS and PtK2 cells could be distinguished from endogenous wild type plectin by virtue of a short carboxy-terminal antigenic peptide (P tag). As shown by conventional and confocal immunofluorescence microscopy, the transient expression of plectin mutants containing all six or the last four of the repeat regions of the COOH-terminus, or the COOH-terminus and the rod, associated with IF networks of both the vimentin and the cytokeratin type and eventually caused their collapse into perinuclear aggregates. Similar effects were observed upon expression of a protein encoded by a full length cDNA construct. Microtubules and microfilaments were unaffected. Unexpectedly, mutants containing the rod without any of the COOH-terminal repeats, accumulated almost exclusively within the nuclei of cells. When the rod was extended by the first one and a half of the COOH-terminal repeats, mutant proteins showed a partial cytoplasmic distribution, although association with intermediate filaments was not observed. Nuclear and diffuse cytoplasmic distribution was also observed upon expression of the NH2-terminal domain without rod. These results indicate that sequences located roughly within the last two thirds of the globular COOH-terminus are indispensable for association of plectin with intermediate filaments in living cells.
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PMID:Expression of plectin mutant cDNA in cultured cells indicates a role of COOH-terminal domain in intermediate filament association. 848 40

Separate populations of microtubules (MTs) distinguishable by their level of posttranslationally modified tubulin subunits and by their stability in vivo have been described. In polarized 3T3 cells at the edge of an in vitro wound, we have found a striking preferential coalignment of vimentin intermediate filaments (IFs) with detyrosinated MTs (Glu MTs) rather than with the bulk of the MTs, which were tyrosinated MTs (Tyr MTs). Vimentin IFs were not stabilizing the Glu MTs since collapse of the IF network to a perinuclear location, induced by microinjection of monoclonal anti-IF antibody, had no noticeable effect on the array of Glu MTs. To test whether Glu MTs may affect the organization of IFs we regrew MTs in cells that had been treated with nocodazole to depolymerize all the MTs and to collapse IFs; the reextension of IFs into the lamella lagged behind the rapid regrowth of Tyr MTs, but was correlated with the slower reformation of Glu MTs. Similar realignment of IFs with newly formed Glu MTs was observed in serum-starved cells treated with either serum or taxol to induce the formation of Glu MTs. Next, we microinjected affinity purified antibodies specific for Glu tubulin (polyclonal SG and monoclonal 4B8) and specific for Tyr tubulin (polyclonal W2 and monoclonal YL1/2) into 3T3 cells. Both injected SG and 4B8 antibodies labeled the subset of endogenous Glu MTs; W2 and YL1/2 antibodies labeled virtually all of the cytoplasmic MTs. Injection of SG or 4B8 resulted in the collapse of IFs to a perinuclear region. This collapse was comparable to that observed after complete MT depolymerization by nocodazole. Injection of W2, YL1/2, or nonspecific control IgGs did not result in collapse of the IFs. Taken together, these results show that Glu MTs localize IFs in migrating 3T3 fibroblasts and suggest that detyrosination of tubulin acts as a signal for the recruitment of vimentin IFs to MTs.
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PMID:Stable, detyrosinated microtubules function to localize vimentin intermediate filaments in fibroblasts. 852 89

The human immunodeficiency virus type 1 (HIV-1) Vif protein has an important role in the regulation of virus infectivity. This function of Vif is cell type specific, and virions produced in the absence of Vif in restrictive cells have greatly reduced infectivity. We show here that the intracellular localization of Vif is dependent on the presence of the intermediate filament vimentin. Fractionation of acutely infected T cells or transiently transfected HeLa cells demonstrates the existence of a soluble and a cytoskeletal form and to a lesser extent the presence of a detergent-extractable form of Vif. Confocal microscopy suggests that in HeLa cells, Vif is predominantly present in the cytoplasm and closely colocalizes with the intermediate filament vimentin. Treatment of cells with drugs affecting the structure of vimentin filaments affect the localization of Vif accordingly, indicating a close association of Vif with this cytoskeletal component. The association of Vif with vimentin can cause the collapse of the intermediate filament network into a perinuclear aggregate. In contrast, analysis of Vif in vimentin-negative cells reveals significant staining of the nucleus and the nuclear membrane in addition to diffuse cytoplasmic staining. In addition to the association of Vif with intermediate filaments, analyses of virion preparations demonstrate that Vif is incorporated into virus particles. In sucrose density gradients, Vif cosediments with capsid proteins even after detergent treatment of virus preparations, suggesting that Vif is associated with the inner core of HIV particles. We propose a model in which Vif has a crucial function as a virion component either by regulating virus maturation or following virus entry into a host cell possibly involving an interaction with the cellular cytoskeletal network.
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PMID:Cytoskeleton association and virion incorporation of the human immunodeficiency virus type 1 Vif protein. 852 63

Mono-(2-ethylhexyl) phthalate (MEHP) is a widely studied Sertoli cell toxicant. Here we describe alterations in Sertoli cell vimentin filament distribution and the incidence of testicular germ cell apoptosis in young (28-day-old) Fischer rats that were treated with MEHP (2 microgram/kg, po) and killed 0, 3, 6, or 12 hr after exposure. A collapse in vimentin filaments was observed 3 hr after MEHP exposure without accompanying changes in the pattern of Sertoli cell tubulin or actin. A progressive increase in the perinuclear condensation of the vimentin filaments was observed from 6 to 12 hr after exposure. To evaluate the consequences of these Sertoli cell changes on germ cells, the role of apoptosis in MEHP-induced testicular toxicity was examined. DNA isolated from testis of rats 6 and 12 hr after MEHP exposure showed a marked increase in low-molecular-weight DNA resulting from internucleosomal cleavage. In addition, DNA fragmentation visualized in frozen testis cross sections by terminal deoxynucleotidyl transferase-mediated digoxigenin-dUTP nick end label (TUNEL) staining demonstrated a progressive increase in germ cell apoptosis from 6 to 12 hr after MEHP exposure. However, 3 hr after MEHP exposure, the incidence of TUNEL-positive germ cells was significantly decreased compared to that seen in controls. Taken together, the early collapse in Sertoli cell vimentin filaments and the concurrent decrease in germ cell apoptosis suggests that MEHP engenders Sertoli cell dysfunction resulting in the disruption of the physiological mechanism of germ cell apoptosis.
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PMID:Mono-(2-ethylhexyl) phthalate rapidly alters both Sertoli cell vimentin filaments and germ cell apoptosis in young rat testes. 860 40

Cytoskeletal intermediate filaments (IFs) constitute a diverse family of proteins whose members are expressed in tissue-specific patterns. Although vimentin IFs are normally restricted to mesenchyme, a variety of cell types express vimentin alone or together with cell-specific IFs during growth, differentiation, and neoplasia. In this study, we have investigated the influence of increased vimentin expression on the simple epithelial cell phenotype. An expression vector encoding a human vimentin cDNA was transfected into murine HR9 endoderm and F9 embryonal carcinoma cell lines, which serve as models for early extraembryonic epithelial differentiation. Stable clones that expressed varying levels of human vimentin were characterized by human vimentin were characterized by immunofluorescence and biochemical analysis. A relatively high level of vimentin expression in HR9 and differentiated F9 epithelial cells resulted in aberrant vimentin structures with co-collapse of keratin K8/K18 filaments and lowered amounts of keratin protein. In F9 epithelial cells, the desmosomal proteins DP I/II did not appear to localize to cell surface desmosome s but rather but rather co-aggregated with the perturbed IFs. Although overall cell morphology was not dramatically altered, individual nuclei were distorted by excess intracellular vimentin. Furthermore, cell proliferation as well as the cell spreading response time were slowed. Ther appears to be a threshold effect regarding overall vimentin levels as cells that expressed lower amounts of the human vimentin exhibited no obvious structural nor biological effects. Our results demonstrate that wild-type vimentin can act as a "mutant" protein when present at high intracellular levels, inducing a variety of phenotypic changes.
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PMID:Structural and biological consequences of increased vimentin expression in simple epithelial cell types. 867 30

Electroporation provides a useful method for loading fibroblasts with fluorescent probes for the cytoskeleton, but the possible deleterious effects of this loading technique on cell motility are unknown. We have used conventional and confocal microscopy of living cells and immunohistochemistry to examine the migration and cytoskeleton of chick embryo corneal fibroblasts electroporated while cultured within collagen gels. Fibroblasts cultured in collagen (1 mg/ml) are successfully electroloaded (0.5-1.0 kVcm-1/960 microF in DMEM/F12/20 mM Hepes, pH 7.2) with dextran (4-150 kDa) and immunoglobulin, but subsequently display uncoordinated pseudopodia and hence are unable to migrate effectively in any one direction. The lack of directed movement is due to depolymerization of microtubules and/or a perinuclear collapse of vimentin filaments, seemingly caused by millimolar levels of Ca2+ ions derived from culture medium following electroporation. Fibroblasts loaded in a buffer which resembles intracellular fluid (< or = 10 microM Ca2+) maintain their cytoskeleton and continue to migrate, when returned to culture medium within 10 min. Using this novel approach, we have loaded fibroblasts migrating through extracellular matrix (ECM) with rhodamine phalloidin and monitored the behavior of the labeled actin cortex by confocal microscopy. During migration phalloidin-actin accumulates near the base of pseudopodia and at the rear of the cell where it is subsequently left behind. We conclude that electroporation is a valuable technique for loading fibroblasts to study migration within ECM, provided that the conditions used support stability of the tubulin cytoskeleton.
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PMID:Effects of electroporation on the tubulin cytoskeleton and directed migration of corneal fibroblasts cultured within collagen matrices. 895 5


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