Project description:Using photoactivatable ribonucleoside crosslinking and biotinylated Cp retrieval, multiple binding sites on viral gRNA where identified.

Project description:Transformed baby-hamster-kidney cells contain higher intracellular concentrations of polyamines than do normal cells. The difference is greater in high-density confluent cultures. Transformed cells incorporate exogenous putrescine into the cells at a faster rate than do normal cells. They also show a marked increase in the rate of spermine biosynthesis compared with normal cells. Transformed cells grown to high cell densities released about 10% of their polyamines into the culture medium in a non-specific manner. In contrast, normal cells, under the same culture conditions, release up to 50% of their intracellular polyamines into the medium almost exclusively as free or conjugated spermidine. The elevated levels of polyamines found in transformed cells therefore appear to be the result of altered transport of polyamines across the cell membrane and of increased rates of biosynthesis.

Project description:We have sequenced the nonstructural protein coding region of Semliki Forest virus temperature-sensitive (ts) mutant strains ts1, ts6, ts9, ts10, ts11, ts13, and ts14. In each case, the individual amino acid changes uncovered were transferred to the prototype strain background and thereby identified as the underlying cause of the altered RNA synthesis phenotype. All mutations mapping to the protease domain of nonstructural protein nsP2 caused defects in nonstructural polyprotein processing and subgenomic RNA synthesis, and all mutations in the helicase domain of nsP2 affected subgenomic RNA production. These types of defects were not associated with mutations in other nonstructural proteins.

Project description:1. The sucrose-gradient pattern of (32)P-labelled RNA synthesized in actinomycintreated baby-hamster kidney cells infected with foot-and-mouth-disease virus depends greatly on the period of labelling. 2. Fractions are formed in infected cells that sediment at 12-20s and have the same base composition as similar fractions found in non-infected cells that have been treated with actinomycin. 3. In the presence of guanidine, which completely inhibits viral RNA synthesis, these fractions are labelled to a greater extent than in non-infected cells.

Project description:Autophagy can defend against infection by delivering viruses to lysosomes for degradation. Semliki Forest virus (SFV) is a positive-sense, single-stranded RNA virus of the alphavirus genus which has been used extensively as a model for arbovirus infection and neuronal encephalitis. Here, we show that autophagy is suppressed during the early hours of SFV infection of neurons. We also show that a switch between autophagy suppression and upregulation between the early and later stages was mediated through modulation of the mammalian target of rapamycin (mTOR) activity during infection. At later stages of infection, autophagosomes colocalize with SFV nonstructural proteins suggesting the formation of a platform for virus replication. Inhibition of mTOR by torin reduced infectious virus production and intracellular virus gene expression while improving cell survival during infection. The results suggest that autophagy is suppressed early during infection of neurons to increase cell survival and then upregulated at later times to facilitate replication. This biphasic regulation of autophagy seen for SFV may be important for other arboviruses, and knowledge about the regulation of autophagy by alphaviruses may be useful for the development of antiviral therapies.

Project description:The incorporation of [32P]Pi and [3H]inositol into the inositol lipids of baby-hamster kidney cells was studied in herpes-simplex-virus-type-1(HSV-1)-infected and mock-infected cells. The infection was conducted during incorporation of, as well as after prelabelling with, the precursors. These methods were used in order to study both synthesis de novo of, and steady-state changes in, the phosphoinositides. Both with infection during labelling, and after prelabelling, we found increased [32P]- and [3H]-phosphatidylinositol 4,5-bisphosphate (PIP2) and decreased [32P]- and [3H]-phosphatidylinositol 4-monophosphate in infected as compared with mock-infected cells, whereas no effect was observed on phosphatidylinositol. This altered inositol-lipid metabolism was (at least in the case of PIP2) not present until 3-6 h after infection and remained stable, or increased slightly, throughout the infection period. Polyphosphoinositide metabolism constitutes an important step in signal processing in many forms of cellular stimulation, and the results obtained suggest that HSV-1 infection may induce such events in our cell system.

Project description:RNA interference (RNAi) is a conserved antiviral immune defense in eukaryotes, and numerous viruses have been found to encode viral suppressors of RNAi (VSRs) to counteract antiviral RNAi. Alphaviruses are a large group of positive-stranded RNA viruses that maintain their transmission and life cycles in both mosquitoes and mammals. However, there is little knowledge about how alphaviruses antagonize RNAi in both host organisms. In this study, we identified that Semliki Forest virus (SFV) capsid protein can efficiently suppress RNAi in both insect and mammalian cells by sequestrating double-stranded RNA and small interfering RNA. More importantly, when the VSR activity of SFV capsid was inactivated by reverse genetics, the resulting VSR-deficient SFV mutant showed severe replication defects in mammalian cells, which could be rescued by blocking the RNAi pathway. Besides, capsid protein of Sindbis virus also inhibited RNAi in cells. Together, our findings show that SFV uses capsid protein as VSR to antagonize RNAi in infected mammalian cells, and this mechanism is probably used by other alphaviruses, which shed new light on the knowledge of SFV and alphavirus.IMPORTANCE Alphaviruses are a genus of positive-stranded RNA viruses and include numerous important human pathogens, such as Chikungunya virus, Ross River virus, Western equine encephalitis virus, etc., which create the emerging and reemerging public health threat worldwide. RNA interference (RNAi) is one of the most important antiviral mechanisms in plants and insects. Accumulating evidence has provided strong support for the existence of antiviral RNAi in mammals. In response to antiviral RNAi, viruses have evolved to encode viral suppressors of RNAi (VSRs) to antagonize the RNAi pathway. It is unclear whether alphaviruses encode VSRs that can suppress antiviral RNAi during their infection in mammals. In this study, we first uncovered that capsid protein encoded by Semliki Forest virus (SFV), a prototypic alphavirus, had a potent VSR activity that can antagonize antiviral RNAi in the context of SFV infection in mammalian cells, and this mechanism is probably used by other alphaviruses.

Project description:RNAseq analysis identified 837 differential gene expressions (DEGs) with 423 up-regulated and 414 down-regulated after transfecting STYK1/NOK into BHK21 cells. GEO and KEGG enrichment analysis indicated that several entries such as ribosome, aging related diseases, oxidative phosphorylation and apoptosis played major roles during this cellular process. PPI analysis showed that four top down-regulated proteins (TOMM7, Uba52, Rpl28 and XP_005077076.1 (ribosomal protein S29)) localized within the highly interaction region might play key roles.

Project description:1. RNA molecules with sedimentation values in sucrose gradients of 12-20s are synthesized in baby-hamster kidney cells even after prolonged incubation in medium containing 1mug. of actinomycin D/ml. 2. The rate of formation of this RNA is dependent on the age of the cultures and is greatest during the exponential phase of growth. 3. Growth of cells on nutritionally poor medium causes degradation and inhibits the synthesis of these RNA fractions. 4. Replacement of the nutritionally poor medium with a rich medium stimulates the synthesis of actinomycin-resistant RNA. This stimulation is blocked by cycloheximide. 5. The base composition of this RNA is characterized by low cytidine and high guanosine values.

Project description:Adrenal chromaffin cells are commonly used in studies of exocytosis. Progress in characterizing the molecular mechanisms has been slow, because no simple, high-efficiency technique is available for introducing and expressing heterologous cDNA in chromaffin cells. Here we demonstrate that Semliki Forest virus (SFV) vectors allow high-efficiency expression of heterologous protein in chromaffin cells.