Association of mRNA and eIF-2 alpha with the cytoskeleton in cells lacking vimentin

The human bladder carcinoma cell lines RT4 and T24 and the human breast adenocarcinoma cell line MCF-7 were found to be negative for vimentin when studied by means of immunofluorescence and immunoblotting. Northern blot analysis revealed that these cells lacked detectable levels of vimentin mRNA with the exception of T24, which contains trace amounts of vimentin mRNA compared to the RNA level in vimentin-containing HeLa cells. CAT assays performed on these cells showed that a hamster vimentin promoter is inactive in RT4 and MCF-7 cells. In the vimentin-lacking cells, the binding of polyribosomes, specific mRNAs, and translation factor eIF-2 alpha to the cytoskeletal fraction was examined. Our results indicate that the presence of a vimentin network is not crucial for the association of the translation machinery with the cytoskeleton. Furthermore, in these vimentin-negative cell lines the immunofluorescence staining pattern of eIF-2 alpha shows a fibro-granular structure that has no resemblance to the cytokeratin or actin cytoskeleton present in these cells.     

特异性下调葡萄糖调节蛋白78表达对肝细胞癌侵袭和转移能力的影响

为了研究特异性下调葡萄糖调节蛋白(Grp)78对肝细胞癌侵袭和转移能力的影响。通过小干扰RNA(siRNA)技术特异性下调人肝细胞癌细胞株BEL7402中Grp78的表达,并应用Transwell法和划痕法对肝细胞癌侵袭、转移能力的改变进行分析,应用免疫沉淀技术和GST-pulldown技术分别对黏着斑激酶(FAK)的磷酸化水平和小GTPase RhoA的活性进行研究,应用免疫印迹技术检测E-钙黏着蛋白、N-钙黏着蛋白和波形蛋白的表达。结果发现,Transwell实验和划痕实验结果显示特异性下调Grp78表达可以抑制肝细胞癌的侵袭和转移,免疫沉淀结果显示特异性下调Grp78表达可以降低FAK的磷酸化水平,GST-pulldown实验结果表明特异性下调Grp78表达可以上调RhoA的活性。免疫印迹实验结果表明特异性下调Grp78可以下调N-钙黏着蛋白、波形蛋白的表达,上调E-钙黏着蛋白的表达。结果表明特异性下调Grp78在体外可以抑制肝细胞癌的侵袭和转移,这种抑制作用是通过FAK脱磷酸化和抑制肿瘤的上皮-间叶转化实现的。     

Soluble CD44 interacts with intermediate filament protein vimentin on endothelial cell surface

CD44 is a cell surface glycoprotein that functions as hyaluronan receptor. Mouse and human serum contain substantial amounts of soluble CD44, generated either by shedding or alternative splicing. During inflammation and in cancer patients serum levels of soluble CD44 are significantly increased. Experimentally, soluble CD44 overexpression blocks cancer cell adhesion to HA. We have previously found that recombinant CD44 hyaluronan binding domain (CD44HABD) and its non-HA-binding mutant inhibited tumor xenograft growth, angiogenesis, and endothelial cell proliferation. These data suggested an additional target other than HA for CD44HABD. By using non-HA-binding CD44HABD Arg41Ala, Arg78Ser, and Tyr79Ser-triple mutant (CD443MUT) we have identified intermediate filament protein vimentin as a novel interaction partner of CD44. We found that vimentin is expressed on the cell surface of human umbilical vein endothelial cells (HUVEC). Endogenous CD44 and vimentin coprecipitate from HUVECs, and when overexpressed in vimentin-negative MCF-7 cells. By using deletion mutants, we found that CD44HABD and CD443MUT bind vimentin N-terminal head domain. CD443MUT binds vimentin in solution with a Kd in range of 12-37 nM, and immobilised vimentin with Kd of 74 nM. CD443MUT binds to HUVEC and recombinant vimentin displaces CD443MUT from its binding sites. CD44HABD and CD443MUT were internalized by wild-type endothelial cells, but not by lung endothelial cells isolated from vimentin knock-out mice. Together, these data suggest that vimentin provides a specific binding site for soluble CD44 on endothelial cells.     

Association of mRNA and eIF-2α with the cytoskeleton in cells lacking vimentin

The human bladder carcinoma cell lines RT4 and T24 and the human breast adenocarcinoma cell line MCF-7 were found to be negative for vimentin when studied by means of immunofluorescence and immunoblotting. Northern blot analysis revealed that these cells lacked detectable levels of vimentin mRNA with the exception of T24, which contains trace amounts of vimentin mRNA compared to the RNA level in vimentin-containing HeLa cells. CAT assays performed on these cells showed that a hamster vimentin promoter is inactive in RT4 and MCF-7 cells. In the vimentin-lacking cells, the binding of polyribosomes, specific mRNAs, and translation factor eIF-2α to the cytoskeletal fraction was examined. Our results indicate that the presence of a vimentin network is not crucial for the association of the translation machinery with the cytoskeleton. Furthermore, in these vimentin-negative cell lines the immunofluorescence staining pattern of eIF-2α shows a fibro-granular structure that has no resemblance to the cytokeratin or actin cytoskeleton present in these cells.     

Renal Cells Express Different Forms of Vimentin: The Independent Expression Alteration of these Forms is Important in Cell Resistance to Osmotic Stress and Apoptosis

Osmotic stress has been shown to regulate cytoskeletal protein expression. It is generally known that vimentin is rapidly degraded during apoptosis by multiple caspases, resulting in diverse vimentin fragments. Despite the existence of the known apoptotic vimentin fragments, we demonstrated in our study the existence of different forms of vimentin VIM I, II, III, and IV with different molecular weights in various renal cell lines. Using a proteomics approach followed by western blot analyses and immunofluorescence staining, we proved the apoptosis-independent existence and differential regulation of different vimentin forms under varying conditions of osmolarity in renal cells. Similar impacts of osmotic stress were also observed on the expression of other cytoskeleton intermediate filament proteins; e.g., cytokeratin. Interestingly, 2D western blot analysis revealed that the forms of vimentin are regulated independently of each other under glucose and NaCl osmotic stress. Renal cells, adapted to high NaCl osmotic stress, express a high level of VIM IV (the form with the highest molecular weight), besides the three other forms, and exhibit higher resistance to apoptotic induction with TNF-α or staurosporin compared to the control. In contrast, renal cells that are adapted to high glucose concentration and express only the lower-molecular-weight forms VIM I and II, were more susceptible to apoptosis. Our data proved the existence of different vimentin forms, which play an important role in cell resistance to osmotic stress and are involved in cell protection against apoptosis.     

Heat shock protein levels are not elevated in heat-resistant B16 melanoma cells

Heat-resistant variants have been selected from B16 melanoma cells and from surface mutants previously derived from them. The aim of the present study was to explore the possible role of heat shock proteins in the manifestation of this heat resistance. The major heat shock proteins evident after heating have subunit molecular weights of 68, 70, 89, and 110K on sodium dodecyl sulfate-polyacrylamide gels. The 68-kDa protein is not evident in any of the unheated B16 cell lines while the levels of the other heat shock proteins are elevated after heating. The constitutive levels of the 70, 89, and 110-kDa heat shock proteins were assessed after gel electrophoretic separation of proteins in several of the heat-resistant variants. No major differences were found in the levels of these proteins between the heat-sensitive parent lines and the heat-resistant variants. We therefore conclude that heat shock proteins are not a determining factor in the heat-resistant phenotype of B16 melanoma cells.     

Proteomic characterization of Kunitz trypsin inhibitor variants, Tia and Tib, in soybean [Glycine max (L.) Merrill]

The soybean Kunitz trypsin inhibitor (KTi) has several polymorphic variants. Of these, Tia and Tib, which differ by nine amino acids, are the two main types. In this study, differences in KTi proteome between Tia and Tib were investigated using three soybean cultivars and three mutant lines. Two cultivars, Baekwoon (BW) and Paldal (PD), and one mutant line, SW115-24, were Tia type, whereas one soybean cultivar, Suwon115 (SW115), and two mutant lines, BW-7-2 and PD-5-10, were Tib type. Protein from the six soybean lines was extracted and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), non-denaturing polyacrylamide gel electrophoresis (non-denaturing PAGE), and two-dimensional polyacrylamide gel electrophoresis (2-DE). By SDS-PAGE, there was no difference between soybean cultivars and mutant lines, except for SW115-24. Western blot analysis revealed that, in comparison with Tia, Tib type accumulated relatively low amounts of KTi. By non-denaturing PAGE, the three soybean lines of Tib type were characterized by slower mobility than the three soybean lines of Tia type. Zymography detected eight distinct zones of trypsin inhibitory activity among which Tia and Tib lacked the fifth and sixth zone, respectively. By two-dimensional native polyacrylamide gel electrophoresis (2-DN), the spots related to trypsin inhibitory activity showed different mobilities, whereas only one KTi (21.5?kDa) spot was resolved by 2-DE. By two-dimensional zymography (2-DZ), Tib showed a broader activity zone (pI 4-7) in comparison with Tia (pI 4-5). The results indicate that the genotypes with a different type of KTi present different proteomic profiles and trypsin inhibitory activities.     

Thapsigargin down-regulates protein levels of GRP78/BiP in INS-1E cells

Pancreatic β-cells have a well-developed endoplasmic reticulum (ER) and express large amounts of chaperones and protein disulfide isomerases (PDI) to meet the high demand for synthesis of proteins. We have observed an unexpected decrease in chaperone protein level in the β-cell model INS-1E after exposure to the ER stress inducing agent thapsigargin. As these cells are a commonly used model for primary β-cells and has been shown to be vulnerable to ER stress, we hypothesize these cells are incapable of mounting a chaperone defense upon activation of ER stress. To investigate the chaperone expression during an ER stress response, induced by thapsigargin in INS-1E cells, we used quantitative mass spectrometry based proteomics. The results displayed a decrease of GRP78/BiP, PDIA3 and PDIA6. Decrease of GRP78/BiP was verified by Western blot and occurred in parallel with enhanced levels of p-eIF2α and CHOP. In contrast to INS-1E cells, GRP78/BiP was not decreased in MIN6 cell or rat and mouse islets after thapsigargin exposure. Investigation of the decreased protein levels of GRP78/BiP indicates that this is not a consequence of reduced mRNA expression. Rather the reduction results from the combined effect of reduced protein synthesis and enhanced proteosomal degradation and possibly also degradation via autophagy. Induction of ER stress with thapsigargin leads to lower protein levels of GRP78/BiP, PDIA3 and PDIA6 in INS-1E cells which may contribute to the susceptibility of ER stress in this β-cell model.     

The 78 kDa glucose-regulated protein (GRP78/BIP) is expressed on the cell membrane,is released into cell culture medium and is also present in human peripheral circulation

In human rabdomiosarcoma cells (TE671/RD) chronic exposure to 500 nM thapsigargin (a powerful inhibitor of the endoplasmic reticulum Ca²⁺-ATPases) resulted in the induction of the stress protein GRP78/BIP. Making use of the surface biotinylation method, followed by the isolation of the GRP78 using ATP-agarose affinity chromatography, it was found that a fraction of the thapsigargin-induced GRP78 is expressed on the cell surface. The presence of GRP78 on the membrane of thapsigargin-treated cells was confirmed by fractionation of cell lysates into a soluble and a membrane fraction, followed by Western blot analysis with an anti-GRP78 antibody. It was also found that conspicuous amounts of GRP78 are present in the culture medium collected from thapsigargin-treated cultures. This extracellular GRP78 originates mostly by an active release from intact cells and does not result solely from the leakage of proteins from dead cells. Moreover, small amounts of circulating, free GRP78 and naturally-occurring anti-GRP78 autoantibodies were detected in the peripheral circulation of healthy human individuals.     

Ultrastructural Studies of Carboxyl-Terminal Truncation Mutants of the Neuronal Intermediate Filament Protein Peripherin

Abstract: We have prepared carboxyl-terminal truncation mutants of the neuronal intermediate filament (IF) protein peripherin and examined the assembly characteristics of these mutant proteins in SW13 cells in the presence and absence of vimentin. In the absence of vimentin, tailless peripherin protein (Per-C424) self-assembles into bundles and clumps as observed by immunofluorescence, whereas a peripherin mutant that is missing the tail as well as a small portion of the rod (Per-C356) appears as spherical aggregates. Similar phenotypes are observed when vimentin-positive cells are transfected with Per-C424 or Per-C356. In these cells, the entire IF network is disrupted, and vimentin colocalizes with the mutant peripherin proteins. To examine the morphology of the bundles and clumps formed by Per-C424 at the electron microscopic level, we prepared stable cell lines expressing different levels of this mutant protein. By immunofluorescence, Per-C424 appears as either clumps or bundles of filaments depending on the expression level of the mutant protein. However, under electron microscopy, it is apparent that both clumps and bundles are composed of tightly packed IFs. We were unable to obtain stable cell lines expressing Per-C356, indicating that this mutant may prevent cell proliferation. Using a vector containing an internal ribosomal entry site, we prepared a construct that expresses Per-C356 and green fluorescent protein as a single mRNA, and we were able to isolate cells that expressed Per-C356 by fluorescence-activated cell sorting. Electron microscopic analysis of these cells showed that these aggregates are solid and contain no obvious filamentous structures.     

DAPT-induced intracellular accumulations of longer amyloid beta-proteins: further implications for the mechanism of intramembrane cleavage by gamma-secretase

Gamma-secretase cleaves the transmembrane domain of beta-amyloid precursor protein at multiple sites. These are referred to as gamma-, zeta-, and epsilon-cleavages. We showed previously that DAPT, a potent dipeptide gamma-secretase inhibitor, caused differential accumulations of longer amyloid beta-proteins (Abetas) (Abeta43 and Abeta46) in CHO cells that are induced to express the beta C-terminal fragment (CTF). To learn more about the cleavage mechanism by gamma-secretase, CHO cell lines coexpressing betaCTF and wild-type or mutant presenilin (PS) 1/2 were generated and treated with DAPT. In all cell lines treated with DAPT, as the levels of Abeta40 decreased, Abeta46 accumulated to varying extents. In wild-type PS1 or M146L mutant PS1 cells, substantial amounts of Abeta43 and Abeta46 accumulated. In contrast, this was not the case with wild-type PS2 cells. In M233T mutant PS1 cells, significant amounts of Abeta46 and Abeta48 accumulated differentially, whereas in N141I mutant PS2 cells, large amounts of Abeta45 accumulated concomitantly with a large decrease in Abeta42 levels. Most interestingly, in G384A mutant PS1 cells, there were no significant accumulations of longer Abetas except for Abeta46. Abeta40 was very susceptible to DAPT, but other Abetas were variably resistant. Complicated suppression and accumulation patterns by DAPT may be explained by stepwise processing of betaCTF from a zeta- or epsilon-cleavage site to a gamma-cleavage site and its preferential suppression of gamma-cleavage over zeta- or epsilon-cleavage.     

Plasticin, a type III neuronal intermediate filament protein, assembles as an obligate heteropolymer: implications for axonal flexibility

The assembly characteristics of the neuronal intermediate filament protein plasticin were studied in SW13 cells in the presence and absence of a cytoplasmic filament network. Full-length plasticin cannot polymerize into homopolymers in filament-less SW13c1.2Vim(-) cells but efficiently coassembles with vimentin in SW13c1.1Vim(-) cells. By cotransfecting plasticin and vimentin in SW13c1.1Vim(-) cells, we show that plasticin assembly requires vimentin in noncatalytic amounts. Differing effects on assembly were seen with point mutations of plasticin monomers that were analogous to the keratin mutations that cause epidermolysis bullosa simplex (EBS). In particular, plasticin monomers with point mutations analogous to those in EBS do not uniformly inhibit neurofilament (NF) network formation. A point mutation in the helix termination sequence resulted in complete filament aggregation when coexpressed with vimentin but showed limited coassembly with low- and medium-molecular-weight NF proteins (NF-L and NF-M, respectively). In transfected SW13c1.1Vim(+) cells, a point mutation in the first heptad of the alpha-helical coil region formed equal amounts of filaments, aggregates, and a mixture of filaments and aggregates. Furthermore, coexpression of this point mutation with NF-L and NF-M was associated with a shift toward increased numbers of aggregates. These results suggest that there are important structural differences in assembly properties between homologous fish and mammalian intermediate filament proteins. These structural differences may contribute to the distinctive growth characteristics of the teleost visual pathway.     

Increased calmodulin affects cell morphology and mRNA levels of cytoskeletal protein genes.

We have previously described stable mouse C127 cell lines in which a CaM mini-gene has been expressed in a bovine papilloma virus-based expression vector (Rasmussen and Means: EMBO J. 6:3961-3968, 1987). Elevation of CaM to levels five-fold higher than in control cells caused an acceleration in cell cycle progression by reducing the length of the G1 period. When these cell lines were originally isolated it was observed that cells in which CaM levels were increased had a flattened morphology. In this study we have examined the localization of actin, vimentin, and tubulin in these cells as compared to the BPV-transformed control cell line in order to determine if changes in shape were accompanied by differences in the cytoskeletal organization. Cell-cycle-dependent changes in the levels of mRNAs for histone H4, glyceraldehyde-3-phosphate dehydrogenase, beta-actin, vimentin, and beta-tubulin have also been examined. Our results indicate that increased CaM causes differences in the organization of microfilaments, intermediate filaments, and microtubules and that these changes are accompanied by selective differences in the cell-cycle-dependent expression of some mRNAs. Elevated CaM was also correlated with a reduced stability of beta-tubulin mRNA. These studies indicate that CaM has pleiotropic effects on cell function and suggest that stable cell lines with altered CaM levels may provide a useful model system for understanding the molecular basis of CaM-dependent regulation of cellular processes.     

谷胱甘肽转移酶ω1基于酶活位点调控波形蛋白表达并促进肺腺癌恶性进展

摘要 目的：探究谷胱甘肽转移酶ω1（Glutathione S-Transferase Omega 1, GSTO1）关键酶活位点Cys32与肺腺癌恶性进展的关系与初步作用机制。方法：构建GSTO1野生型与酶活失活点突变C32A型过表达的肺腺癌细胞系,观察过表达细胞的形态变化及增殖能力的变化。以临床数据生物信息学分析探究GSTO1调控的促肿瘤蛋白,使用免疫印迹法验证该蛋白在GSTO1野生型与酶活失活点突变C32A型过表达的肺腺癌细胞系中的表达差异,并结合临床公共数据库分析该蛋白与患者预后的关联。结果：发现过表达野生型GSTO1能够引起肺腺癌细胞PC9的形态变化并促进PC9细胞增殖,而过表达C32A突变型GSTO1的PC9细胞与空载体组细胞形态及增殖能力相似;临床数据提示GSTO1与波形蛋白（Vimentin, VIM）表达呈现正相关,免疫印迹法显示野生型GSTO1过表达能够引起Vimentin蛋白表达上调,而C32A酶活失活点突变型GSTO1过表达无法引起Vimentin蛋白表达上调;通过临床样本数据观察GSTO1与Vimentin共同高表达的肺腺癌患者肿瘤恶性程度更高、发生转移的比例更大,同时无病生存期与总生存期更短。结论：GSTO1基于其酶活位点调控Vimentin表达,改变肺腺癌细胞形态并促进肺腺癌细胞增殖,研究结果为靶向GSTO1的肺腺癌治疗提供了新思路。     

Vimentin Protects Cells Against Doxorubicin and Vincristine

Vimentin is a class III IF protein that among other functions in the cells interacts with mitochondria causing the elevation of their membrane potential. This interaction may be very important although they are still poorly understood. In this study vimentin-null cells and derivative cell lines that express different mutant forms of human vimentin were used as a model to investigate the ability of this protein to provide the resistance of cells against antitumor drugs and its dependence on the interaction with mitochondria. The half maximal inhibitory concentration (IC₅₀) of vincristine and doxorubicin, two commonly used anticancer drugs, demonstrated that drug resistance of the cells increases only with the vimentin forms that can bind mitochondria. Mutant forms of vimentin lacking the ability to bind mitochondria had no effect on drug resistance. The effect of vimentin on cell viability was observed in the presence of verapamil, the inhibitor of P-glycoprotein, product of Multi-Drug Resistance (MDR) gene. We propose that the interaction of mitochondria with vimentin protects and stabilizes these organelles in the stress conditions.     

Correlation of endothelial vimentin content with hemodynamic parameters

 In mammalian species, vimentin is the sole intermediate filament protein of endothelial cells lining the chambers of the heart and the inner surface of large blood vessels. Obvious quantitative differences in the vimentin-like immunoreactivity of endothelial cells observed in different vascular segments led us to undertake a systematic survey on the endothelial content of vimentin throughout the heart chambers, the vena cava, the pulmonary trunk, and the aorta of the pig. Immunostaining and immunoblotting showed that vimentin in endothelial cells of cardiovascular segments exposed to high shear stress and blood pressure (pulmonary trunk, aorta, left ventricle) is approximately 2- to -3-fold higher than in endothelial cells exposed to lower levels of hemodynamic stress (vena cava, left and right atria, right ventricle). Throughout the aorta, an approximately 1.5-fold increase in the vimentin contents was observed in a proximal to distal direction. The total endothelial amount of vimentin was determined to be 1.2% (inferior vena cava) and 2–3.5% (aorta) of total cellular protein. These data support the notion that the endothelial vimentin cytoskeleton can adapt to different hemodynamic loads, indicating that vimentin might help endothelial cells to withstand the mechanical forces exerted by blood flow and blood pressure. Accepted: 2 February 1998