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Alyson R. Pierick Melissa McKane Kuo-Kuang Wen Heather L. Bartlett 《Journal of visualized experiments : JoVE》2014,(89)
Mutations in actin cause a range of human diseases due to specific molecular changes that often alter cytoskeletal function. In this study, imaging of fluorescently tagged proteins using total internal fluorescence (TIRF) microscopy is used to visualize and quantify changes in cytoskeletal dynamics. TIRF microscopy and the use of fluorescent tags also allows for quantification of the changes in cytoskeletal dynamics caused by mutations in actin. Using this technique, quantification of cytoskeletal function in live cells valuably complements in vitro studies of protein function. As an example, missense mutations affecting the actin residue R256 have been identified in three human actin isoforms suggesting this amino acid plays an important role in regulatory interactions. The effects of the actin mutation R256H on cytoskeletal movements were studied using the yeast model. The protein, Aip1, which is known to assist cofilin in actin depolymerization, was tagged with green fluorescent protein (GFP) at the N-terminus and tracked in vivo using TIRF microscopy. The rate of Aip1p movement in both wild type and mutant strains was quantified. In cells expressing R256H mutant actin, Aip1p motion is restricted and the rate of movement is nearly half the speed measured in wild type cells (0.88 ± 0.30 μm/sec in R256H cells compared to 1.60 ± 0.42 μm/sec in wild type cells, p < 0.005). 相似文献
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The peroxiredoxins are a ubiquitous family of proteins involved in protection against oxidative stress through the detoxification of cellular peroxides. In addition, the typical 2-Cys peroxiredoxins function in signalling of peroxide stress and as molecular chaperones, functions that are influenced by their oligomeric state. Of the human peroxiredoxins, Prx IV (peroxiredoxin IV) is unique in possessing an N-terminal signal peptide believed to allow secretion from the cell. Here, we present a characterization of Prx IV in human cells demonstrating that it is actually retained within the ER (endoplasmic reticulum). Stable knockdown of Prx IV expression led to detrimental effects on the viability of human HT1080 cells following treatment with exogenous H2O2. However, these effects were not consistent with a dose-dependent correlation between Prx IV expression and peroxide tolerance. Moreover, modulation of Prx IV expression showed no obvious effect on ER-associated stress, redox conditions or H2O2 turnover. Subsequent investigation demonstrated that Prx IV forms complex structures within the ER, consistent with the formation of homodecamers. Furthermore, Prx IV oligomeric interactions are stabilized by additional non-catalytic disulfide bonds, indicative of a primary role other than peroxide elimination. 相似文献
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HIV fusion and entry into CD4 T cells are mediated by two receptors, CD4 and CXCR4. This receptor requirement can be abrogated by pseudotyping the virion with the vesicular stomatitis virus glycoprotein (VSV-G) that mediates viral entry through endocytosis. The VSV-G-pseudotyped HIV is highly infectious for transformed cells, although the virus circumvents the viral receptors and the actin cortex. In HIV infection, gp120 binding to the receptors also transduces signals. Recently, we demonstrated a unique requirement for CXCR4 signaling in HIV latent infection of blood resting CD4 T cells. Thus, we performed parallel studies in which the VSV-G-pseudotyped HIV was used to infect both transformed and resting T cells in the absence of coreceptor signaling. Our results indicate that in transformed T cells, the VSV-G-pseudotyping results in lower viral DNA synthesis but a higher rate of nuclear migration. However, in resting CD4 T cells, only the HIV envelope-mediated entry, but not the VSV-G-mediated endocytosis, can lead to viral DNA synthesis and nuclear migration. The viral particles entering through the endocytotic pathway were destroyed within 1–2 days. These results indicate that the VSV-G-mediated endocytotic pathway, although active in transformed cells, is defective and is not a pathway that can establish HIV latent infection of primary resting T cells. Our results highlight the importance of the genuine HIV envelope and its signaling capacity in the latent infection of blood resting T cells. These results also call for caution on the endocytotic entry model of HIV-1, and on data interpretation where the VSV-G-pseudotyped HIV was used for identifying HIV restriction factors in resting T cells. 相似文献
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We have examined UV irradiation-induced cell death in Jurkat cells and evaluated the relationships that exist between inhibition of caspase activity and the signaling mechanisms and pathways of apoptosis. Jurkat cells were irradiated with UV-C light, either with or without pretreatment with the pan-caspase inhibitor, z-VAD-fmk (ZVAD), or the more selective caspase inhibitors z-IETD-fmk (IETD), z-LEHD-fmk (LEHD), and z-DEVD-fmk (DEVD). Flow cytometry was used to examine alterations in viability, cell size, plasma membrane potential (PMP), mitochondrial membrane potential (DeltaPsi(mito)), intracellular Na(+) and K(+) concentrations, and DNA degradation. Processing of pro-caspases 3, 8, and 9 and the pro-apoptotic protein Bid was determined by Western blotting. UV-C irradiation of Jurkat cells resulted in characteristic apoptosis within 6 h after treatment and pretreatment of cells with ZVAD blocked these features. In contrast, pretreatment of the cells with the more selective caspase inhibitors under conditions that effectively blocked DNA degradation and inhibited caspase 3 and 8 processing as well as Bid cleavage had little protective effect on the other apoptotic characteristics examined. Thus, both intrinsic and extrinsic pathways are activated during UV-induced apoptosis in Jurkat cells and this redundancy appears to assure cell death during selective caspase inhibition. 相似文献
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Alberto J. León David Banner Luoling Xu Longsi Ran Zhiyu Peng Kang Yi Chao Chen Fengping Xu Jinrong Huang Zhen Zhao Zhen Lin Stephen H. S. Huang Yuan Fang Alyson A. Kelvin Ted M. Ross Amber Farooqui David J. Kelvin 《Journal of virology》2013,87(4):1957-1966
Ferrets have become an indispensable tool in the understanding of influenza virus virulence and pathogenesis. Furthermore, ferrets are the preferred preclinical model for influenza vaccine and therapeutic testing. Here we characterized the influenza infectome during the different stages of the infectious process in ferrets with and without prior specific immunity to influenza. RNA from lung tissue and lymph nodes from infected and naïve animals was subjected to next-generation sequencing, followed by de novo data assembly and annotation of the resulting sequences; this process generated a library comprising 13,202 ferret mRNAs. Gene expression profiles during pandemic H1N1 (pdmH1N1) influenza virus infection were analyzed by digital gene expression and solid support microarrays. As expected during primary infection, innate immune responses were triggered in the lung tissue; meanwhile, in the lymphoid tissue, genes encoding antigen presentation and maturation of effector cells of adaptive immunity increased dramatically. After 5 days postinfection, the innate immune gene expression was replaced by the adaptive immune response, which correlates with viral clearance. Reinfection with homologous pandemic influenza virus resulted in a diminished innate immune response, early adaptive immune gene regulation, and a reduction in clinical severity. The fully annotated ferret infectome will be a critical aid to the understanding of the molecular events that regulate disease severity and host-influenza virus interactions among seasonal, pandemic, and highly pathogenic avian influenzas. 相似文献
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Heterogeneity of Mitochondrial Protein Biogenesis during Primary
Leaf Development in Barley 总被引:4,自引:1,他引:4 下载免费PDF全文
The natural developmental gradient of light-grown primary leaves of barley (Hordeum vulgare L.) was used to analyze the biogenesis of mitochondrial proteins in relation to the age and physiological changes within the leaf. The data indicate that the protein composition of mitochondria changes markedly during leaf development. Three distinct patterns of protein development were noted: group A proteins, consisting of the E1 β-subunit of the pyruvate dehydrogenase complex, ORF156, ORF577, alternative oxidase, RPS12, cytochrome oxidase subunits II and III, malic enzyme, and the α- and β-subunits of F1-ATPase; group B proteins, consisting of the E1 α-subunit of the pyruvate dehydrogenase complex, isocitrate dehydrogenase, HSP70A, cpn60C, and cpn60B; and group C proteins, consisting of the four subunits of the glycine decarboxylase complex (P, H, T, and L proteins), fumarase, and formate dehydrogenase. All of the proteins increased in concentration from the basal meristem to the end of the elongation zone (20.0 mm from the leaf base), whereupon group A proteins decreased, group B proteins increased to a maximum at 50 mm from the leaf base, and group C proteins increased to a maximum at the leaf tip. This study provides evidence of a marked heterogeneity of mitochondrial protein composition, reflecting a changing function as leaf cells develop photosynthetic and photorespiratory capacity. 相似文献