Project description:Elimination of misfolded proteins is crucial for proteostasis and to prevent proteinopathies. Nedd4/Rsp5 emerged as a major E3 ligase involved in multiple quality control pathways that target misfolded plasma membrane proteins, aggregated polypeptides, and cytosolic heat-induced misfolded proteins for degradation. It remained unclear how in one case cytosolic heat-induced Rsp5 substrates are destined for proteasomal degradation, whereas other Rsp5 quality control substrates are otherwise directed to lysosomal degradation. Here we find that Ubp2 and Ubp3 deubiquitinases are required for the proteasomal degradation of cytosolic misfolded proteins targeted by Rsp5 after heat-shock. The two deubiquitinases associate more with Rsp5 upon heat stress to prevent the assembly of K63-linked ubiquitin on Rsp5 heat-induced substrates. This activity was required to promote the K48-mediated proteasomal degradation of Rsp5 heat-shock induced substrates. Our results indicate that ubiquitin chain editing is key to the cytosolic protein quality control under stress conditions.

Project description:This project reports the characterization of the lactate racemase system in Lactobacillus plantarum. The lactate racemase (LarA) is a nickel-dependent enzyme. The apo-enzyme (apoLarA) is activated by a single nickel-containing maturation protein (LarE) that requires preactivation by two other accessory proteins (LarC which is a fusion between LarC1 and LarcC2 and LarB). Data submitted here identify the purified forms of Lar proteins.

Project description:In the yeast saccharoryces cerevisiae, RPA49 full-deletion mutants show a strong growth defect at 30°C and are unable to grow at 25°C. However, spontaneous suppressors that restore growth at 25°C are observed. We attend to identified new suppressor alleles after UV treatment. To mapped the genomic location of suppressor allele we have used a derivative of the so called \\"Genetic Interaction Mapping\\" (GIM) method (Decourty et al, 2008). Briefly, we have mated a yeast strain carrying the deletion of rpa49 and the a suppressor allele (query strain) with the pool of all haploid deletion mutants from the Euroscarf yeast gene deletion project. All deletions in strains from the Euroscarf collection are flanked by 2 unique 20 bases pair DNA tag (so-called Up-Tag and DN-tag) that allow detection on oligonucleotide micro-array. After sporulation in mass, spores carrying the rpa49 deletion, the suppressor allele and euroscarf deleted genes were selected and grow in a competition culture for 10 generations. As selected spores result from genetic re-association of allele from tested strains and euroscarf strain, all strains carrying a deleted genes from the euroscarf collection that is genetically link to the suppressor allele will be depleted in the culture. We next extract genomic DNA , amplified and labelled the tags. The relative quantity of each deletion tags in experiments with strain carrying suppressor alleles were estimated in a two color array experiment relative to the quantity of the tags in parallel experiments using two different wild-type strains.

Project description:Transcriptional profiling of Candida parapsilosis in media with a preferred nitrogen source (ammonium sulfate) and a non-preferred source (isoleucine) to identify genes that are subject to Nitrogen Catabolite Expression. Gene expression of wild type and dal81 deletion strains were compared during growth in complex nitrogen sources (YPD), in minimal media with a preferred nitrogen source (YNB+ammonium sulfate) and minimal medium with a non-preferred source (GABA).

Project description:We performed a series of 14 steady-state chemostat cultures of S. cerevisiae in biological triplicates, which orthogonally modulated either the growth rate under nitrogen limitation, or the amino acid metabolism of the cell under nitrogen or carbon limitation. The nitrogen sources in the AA subset were chosen to represent those that are preferred (NH4 and Glu) and non-preferred (Phe and Ile). This dataset allows us to account for gene expression changes that arise from changing growth rate and metabolism, which is necessary for a complete understanding of gene regulation.

Project description:Gambogic acid (GA) is an anti-cancer agent in phase Ⅱb clinical trial in China. In HeLa cells, GA inhibited cell proliferation, induced cell cycle arrest at G2/M phase and apoptosis, as showed by results of MTT assay and flow cytometric analysis. Possible target-related proteins of GA were searched using comparative proteomic analysis (2-DE) and 9 proteins at early (3 h) stage together with 9 proteins at late (24 h) stage were found. Vimentin was the only target-related protein found at both early and late stage. Results of both 2-DE analysis and Western blotting assay suggested cleavage of vimentin induced by GA. MS/MS analysis of cleaved vimentin peptides indicated possible cleavage sites of vimentin at or near aa51 and aa425. Results of targeted proteomic analysis showed that GA induced change in phosphorylation state of the vimentin head domain (aa51-64). Caspase inhibitors could not abrogate GA-induced cleavage of vimentin. Over-expression of vimentin ameliorated cytotoxicity of GA in HeLa cells. The GA-activated signal transduction, from p38 MAPK, heat shock protein 27 (HSP27), vimentin, dysfunction of cytoskeleton, to cell death, was predicted and then confirmed. Results of animal study showed that GA treatment inhibited tumor growth in HeLa tumor-bearing mice and cleavage of vimentin could be observed in tumor xenografts of GA-treated animals. Results of immunohistochemical staining also showed down-regulated vimentin level in tumor xenografts of GA-treated animals. Furthermore, compared with cytotoxicity of GA in HeLa cells, cytotoxicity of GA in MCF-7 cells with low level of vimentin was weaker while cytotoxicity of GA in MG-63 cells with high level of vimentin was stronger. These results indicated the important role of vimentin in the cytotoxicity of GA. The effects of GA on vimentin and other epithelial-to-mesenchymal transition (EMT) markers provided suggestion for better usage of GA in clinic.

Project description:Here we present an approach to identify N-linked glycoproteins and deduce their spatial localization using a combination of MALDI N-glycan MSI and spatially-resolved glycoproteomics. We subjected glioma biopsies to on-tissue PNGaseF digestion and MALDI-MSI and found that the glycan HexNAc4-Hex5-NeuAc2 was predominantly expressed in necrotic regions of high-grade canine gliomas. To determine the underlying sialo-glycoprotein, various regions in adjacent tissue sections were subjected to microdigestion and manual glycoproteomic analysis. Results identified haptoglobin as the protein associated with HexNAc4-Hex5-NeuAc2, making our study the first report that directly links glycan imaging with intact glycopeptide identification. In total, our spatially-resolved glycoproteomics technique identified over 400 N-, O-, and S- glycopeptides from over 30 proteins, demonstrating the diverse array of glycosylation present on the tissue slides and the sensitivity of our technique. Ultimately, this proof-of-principle work demonstrates that spatially-resolved glycoproteomics greatly complement MALDI-MSI in understanding dysregulated glycosylation.

Project description:Aerobic, glucose-limited chemostat cultures of Saccharomyces cerevisiae grown with six different nitrogen sources were subjected to transcriptome analysis. The use of chemostats enabled an analysis of nitrogen-source-dependent transcriptional regulation at a fixed specific growth rate. A selection of preferred (ammonium and asparagine) and non-preferred (leucine, phenylalanine, methionine and proline) nitrogen sources was investigated. For each nitrogen source, distinct sets of genes were induced or repressed relative to the other five nitrogen sources. A total number of 131 of such M-bM-^@M-^Xsignature transcriptsM-bM-^@M-^Y were identified in this study. In addition to signature transcripts, genes were identified that showed a transcriptional co-response to two or more of the six nitrogen sources. For example, 33 genes were transcriptionally up-regulated in leucine-, phenylalanine- and methionine-grown cultures, which was partly attributed to the involvement of common enzymes in the dissimilation of these amino acids. In addition to specific transcriptional responses elicited by individual nitrogen sources, their impact on global regulatory mechanisms such as nitrogen catabolite repression (NCR) could be monitored. NCR-sensitive gene expression in the chemostat cultures showed that, ammonia and asparagine were M-bM-^@M-^XrichM-bM-^@M-^Y nitrogen sources. By this criterion, leucine, proline and methionine were M-bM-^@M-^XpoorM-bM-^@M-^Y nitrogen sources and phenylalanine showed an M-bM-^@M-^XintermediateM-bM-^@M-^Y NCR response. Keywords: Response to growth on various nitrogen source transcriptome Chemostat based transcriptomics study. Each growth condition was performed in triplicate.

Project description:Rsp5 is an essential and multi-functional E3 ubiquitin ligase in Saccharomyces cerevisiae. We previously isolated the Ala401Glu rsp5 mutant, which is hypersensitive to various stresses. To understand the function of Rsp5 in stress responses, suppressor genes whose overexpression allows rsp5A401E cells to grow at high temperature were screened. The KIN28 and POG1 genes, encoding a subunit of the transcription factor TFIIH and a putative transcriptional activator, respectively, were identified as multicopy suppressors of not only high temperature but also LiCl stresses. The overexpression of Kin28 and Pog1 in rsp5A401E cells caused an increase in the transcriptional level of some stress proteins when exposed to temperature up-shift. DNA microarray analysis under LiCl stress revealed that the transcriptional level of some proteasome components was increased in rsp5A401E cells overexpressing Kin28 or Pog1. These results suggest that the overexpression of Kin28 and Pog1 enhances the protein refolding and degradation pathways in rsp5A401E cells. Experiment Overall Design: Total RNA from S. cerevisiae was isolated by the method of Köhrer and Domdey (1991). Poly A mRNA was enriched from total RNA by Oligotex dT30 mRNA purification kit (Takara Bio). The Affimetrix yeast genome S98 arrays (YGS98 GeneChip, Affymetrix, Santa Clara, CA) were used as DNA microarray in this study. The biotinyated cRNA (15 μg) probe was hybridized to DNA microarray at 45°C for 18 h according to Affymetrix user’s manual. Experiment Overall Design: The washing and staining of arrays were performed using the GeneChip Fluidics Station 400. Experiment Overall Design: The scanning of arrays was carried out using the GeneArray scanner (Agilent technologies, Palto Alto, CA).

Project description:The heat-shock response is a complex cellular program that induces major changes in protein translation, folding and degradation to alleviate toxicity caused by protein misfolding. While heat-shock has been widely used to study proteostasis, it remained unclear how misfolded proteins are targeted for proteolysis in these conditions. We found that Rsp5 and its mammalian homologue Nedd4 are the main E3-ligases responsible for the increased ubiquitination induced by heat-stress. We determined that Rsp5 ubiquitinates cytosolic misfolded proteins upon heat-shock for proteasome degradation. We found that ubiquitination of heat-induced substrates requires the Hsp40 co-chaperone Ydj1 that is further associated with Rsp5 upon heat-shock. Additionally, ubiquitination is also promoted by PY Rsp5-binding motifs found primarily in the structured regions of stress-induced substrates, which can act as heat-induced degrons. Our results support a bipartite recognition mechanism combining direct and chaperone-dependent ubiquitination of misfolded cytosolic proteins by Rsp5.