Project description:FA-NGS methods development

Project description:Ribosome profiling (Ribo-seq) analysis to identify number of ribosome-protected reads from CBC-associated mRNAs or eIF4E-associated mRNAs encoding either a signal sequence or transmembrane domain (TMD)

Project description:Ribosome profiling (Ribo-seq) analysis to identify number of ribosome-protected reads from CBC-associated mRNAs or eIF4E-associated mRNAs encoding either a signal sequence or transmembrane domain (TMD)

Project description:Oral immunotherapy (OIT) has been considered a promising approach for food allergies (FAs). However, the current OIT strategy is limited in terms of the long-term efficacy and safety. We have previously demonstrated that kakkonto, a traditional Japanese herbal medicine, suppresses the occurrence of allergic symptoms in a murine model of ovalbumin (OVA)-induced FA, which is attributed to the induction of the Foxp3+ CD4+ regulatory T cells. In this study, we established an OIT model using the FA mice with already established allergic symptoms and determined whether kakkonto could improve the efficacy of OIT. The OIT method consisted of initially administrating a very small amount of OVA and slowly increasing the amount. Allergic symptoms decreased in the OIT-treated FA mice. OIT significantly downregulated Th2 immune response-related gene expression in the FA mouse colon, and decreased a level of mouse mast cell protease-1, a marker of mast cell degranulation in the FA mouse plasma. Furthermore, the concomitant use of kakkonto significantly enhanced the effectiveness of OIT on the allergic symptoms, the Th2 immune responses and the mast cell degranulation in the OIT-treated FA mice. In addition, OIT significantly increased the population of Foxp3+ CD4+ regulatory T cells in the FA mouse colon, and this population was further increased by OIT in combination with kakkonto. Furthermore, the combined therapy with kakkonto reduced the expression of RA-degrading enzyme CYP26B1 mRNA in the FA mouse colon. These findings indicated that the combination of OIT with kakkonto represents a promising approach for FA treatment.

Project description:In order to promote intracellular survival and infection, Legionella spp. translocate hundreds of effector proteins into eukaryotic host cells using a type IV b protein secretion system (T4bSS). T4bSS are well known to translocate soluble as well as transmembrane domain-containing effector proteins (TMD-effectors) but the mechanisms of secretion are still poorly understood. Herein we investigated the secretion of hydrophobic TMD-effectors, of which about 80 were previously reported to be encoded by L. pneumophila. A proteomic analysis of fractionated membranes revealed that TMD-effectors are targeted to and inserted into the bacterial inner membranes of L. pneumophila independent of the presence of a functional T4bSS. While the T4bSS chaperones IcmS and IcmW were critical for secretion of all tested TMD-effectors, they did not influence inner membrane targeting of these proteins. The translocation of TMD-effectors into host cells proved to be dependent on a C-terminal secretion signal as it is the case for soluble effector proteins and this signal required presentation towards the cytoplasmic side of the inner membrane. A differential secretion behavior of TMD- and soluble effectors and a need for small periplasmic loops within TMD-effectors provided strong evidence that TMD-effectors are secreted in a two-step secretion process with an inner membrane intermediate that is extracted towards the cytoplasm, possibly by aid of the type IV coupling protein complex, for subsequent secretion into eukaryotic host cells by the T4bSS core complex. Overall, our study highlights the amazing versatility of T4bSS to secrete soluble and TMD-effectors from different subcellular locations of the bacterial cell.

Project description:The endoplasmic reticulum (ER) supports biosynthesis of proteins with diverse transmembrane domain (TMD) lengths and hydrophobicity. Features in transmembrane domains such as charged residues in ion channels are often functionally important, but could pose a challenge during cotranslational membrane insertion and folding. Our systematic proteomic approaches in both yeast and human cells revealed that the ER membrane protein complex (EMC) binds to and promotes the biogenesis of a range of multipass transmembrane proteins, with a particular enrichment for transporters. Proximity-specific ribosome profiling demonstrates that the EMC engages clients cotranslationally and immediately following clusters of TMDs enriched for charged residues. The EMC can remain associated after completion of translation, which both protects clients from premature proteasomal degradation and allows recruitment of substrate-specific and general chaperones. Thus, the EMC broadly enables the biogenesis of multipass transmembrane proteins containing destabilizing features, thereby mitigating the trade-off between function and stability.

Project description:Bottom-up proteomics approach has become an important strategy in diverse areas of biological research, and the enzymatic digestion is essential for this technology. Endopeptidase Arg-C catalyzing the hydrolytic cleavage of peptide bonds C-terminal to arginine could be an important protease in bottom-up proteomics. However, it has been seldom applied due to its low specificity and high cost. Reversible chemical derivatization of amine allows a real Arg-C digestion using trypsin. In this paper, a reversible amine derivatization method, citraconylation and decitraconylation were optimized and evaluated for large-scale proteomics studies. Combination of the reversible derivatization and trypsin digestion (termed Arg-C* digestion to distinguish from the conventional Arg-C digestion) resulted in 64.2% more peptide identification (11,925 ± 199 vs 7,262 ± 59) and significantly higher cleavage specificity (95.6% vs 73.6%) than the conventional Arg-C digestion. Comparison of Arg-C* digestion with the widely used trypsin and Lys-C digestion revealed that Arg-C* performed equally or slightly better than Lys-C although not comparable to trypsin. Therefore, the well-established Arg-C* digestion method is a promising approach for proteomics studies and could be used as the prior alternative digestion method to trypsin digestion in order to achieve higher proteome coverage.

Project description:Genome wide DNA methylation profiling of samples with/without chronic or acute Temporomandibular Disorders (TMD). The Illumina Infinium Human methylationEPIC Beadchip was used to obtain DNA methylation profiles across 1,051,943 CpGs in TMD samples. Samples included 452 non-TMD and 496 chronic TMD from OPPERA I, 36 healthy and 123 acute TMD from OPPERA II.

Project description:Pulsed SILAC approaches allow measurement of protein dynamics, including protein translation and degradation. However, its use in quantifying acute changes has been limited due the low labeled peptide stoichiometry. Here, we describe the use of instrument logic to select peaks of interest via targeted mass differences (TMD) for overcoming this limitation. Comparing peptides artificially mixed at low heavy-to-light stoichiometry measured using standard data dependent acquisition with or without TMD revealed 2-3 fold increases in identification without significant loss in quantification precision for both MS2 and MS3 methods. Our benchmarked method approach increases throughput by reducing the necessary machine time. We anticipate that all pulsed SILAC measurements, if combined with TMT or not, would greatly benefit from instrument logic based approaches.

Project description:Multiple studies have shown Rubisco to be subject to Lys-acetylation at various residues; however, conflicting reports exist about the biological significance of these post-translational modifications. One aspect of the Lys-acetylation that has not been addressed in plants generally, or with Rubisco specifically, is the stoichiometry at which these Lys-acetylation events occur. As a method to ascertain which Lys-acetylation sites on Arabidopsis Rubisco might be of regulatory importance, we purified Rubisco from leaves in both the day and night-time and performed independent mass-spectrometry based methods to determine the stoichiometry of Rubisco Lys-acetylation events.