Project description:Listeria monocytogenes is a foodborne intracellular bacterial pathogen leading to human listeriosis. Despite a high mortality rate and increasing antibiotic resistance no clinically approved vaccine against Listeria is available. To identify antigens for this bacterial pathogen that can be encoded in mRNA vaccine formulations, we screened for Listeria epitopes presented on the surface of infected human cell lines by mass spectrometry-based immunopeptidomics. In between more than 15,000 human self-peptides, we detected 68 Listeria epitopes from 42 different bacterial proteins, including several known antigens. Peptide epitopes presented on different cell lines were often derived from the same bacterial surface proteins, classifying these antigens as potential vaccine candidates. Encoding these highly presented antigens in lipid nanoparticle mRNA vaccine formulations resulted in high levels of protection in vaccination challenge experiments in mice. Our results pave the way for the development of a clinical mRNA vaccine against Listeria and demonstrate the power of immunopeptidomics for next-generation bacterial vaccine development.

Project description:Listeria monocytogenes is a foodborne intracellular bacterial model pathogen. Protective immunity against Listeria depends on an effective CD8 T-cell responses, but very few T cell epitopes are known in mice as most common animal infection model for listeriosis. To identify epitopes we screened for Listeria epitopes presented in the spleen of infected mice by mass spectrometry-based immunopeptidomics. In between more than 6,000 mouse self-peptides presented on MHC Class I molecules, we detected 26 Listeria peptides from 25 different bacterial proteins, including previously reported antigens. Bacterial immunopeptides with confirmed fragmentation spectra were further tested for their potential to CD8 T cells, revealing VTYNYINI from the putative cell wall surface anchor family protein LMON_0576 as a novel bona fide peptide epitope. Despite its high biological potency in a prime boost model, this epitope did not protect against challenge infection but can be used as a research tool to probe CD8 T cell responses in mouse models of Listeria infection. Our results demonstrate the power of immunopeptidomics for bacterial antigen identification but highlight the need for in-depth immune characterization for vaccine candidate selection.

Project description:Immunopeptidomics aims to identify Major Histocompatibility Complex-presented peptides on every cell that can be used in anti-cancer vaccine development. However, existing immunopeptidomics data analysis pipelines suffer from the non-tryptic nature of immunopeptides, complicating their identification. Previously, peak intensity predictions by MS²PIP and retention time predictions by DeepLC, have been shown to improve tryptic peptide identifications when rescoring peptide-spectrum matches with Percolator. However, as MS²PIP was tailored towards tryptic peptides, we have here retrained MS²PIP to include non-tryptic peptides. Interestingly, the new models not only greatly improve predictions for immunopeptides, but also yield further improvements for tryptic peptides. We show that the integration of new MS²PIP models, DeepLC, and Percolator in one software package, MS²Rescore, increases spectrum identification rate and unique identified peptides with 46% and 36% compared to standard Percolator rescoring at 1% FDR. Moreover, MS²Rescore also outperforms the current state-of-the-art in immunopeptide-specific identification approaches. Integration of immunopeptide MS²PIP models, DeepLC, and Percolator into MS²Rescore thus allows substantial improved identification of novel epitopes from existing immunopeptidomics workflows.

Project description:Citrullination is a key yet underexplored post-translational modification involved in various biological processes. Its identification via mass spectrometry faces challenges like limited enrichment tools and false positives due to mass overlap with deamidation (+0.9840 Da). To address this, we developed a data analysis pipeline integrating the deep learning model Prosit-Cit, trained on ~53,000 spectra from ~2,500 synthetic citrullinated peptides, which improves sensitivity and precision in identifying citrullination sites. This approach has identified up to 14 times more citrullinated sites in human tissue proteomes and revealed new insights, including the first large-scale citrullination mapping in Arabidopsis. This upload includes: 1) Raw files and search SEARCHs from the evaluation dataset, used to assess the precision of citrullination identifications. 2) Raw files, search SEARCHs, and rescoring outcomes from validation experiments conducted on Arabidopsis flowers. 4) Re-analyzed search and rescoring SEARCHs from human (PXD010154) and Arabidopsis (PXD013868) tissue proteomes.

Project description:In this study, we applied a proteomics strategy to identify peptides present in sheep milk kefir fermented at different times. We aimed to understand changes in the digestion pattern of milk proteins as well as to identify potential bioactive peptides.

Project description:Development of a mass spectrometry biomarker assay to characterize cerebrospinal fluid and brain proteoforms of the granin family of neuropeptides in dementia pathophysiology

Project description:The goal was to examine gene expression after in vivo activation by different vaccine strains of Listeria monocytogenes. Heat killed LM, irradiated LM and live actA- LM were used to immunize mice after transfer of OT-I cells 5x10e5 OT-I-RAG-/- cells transferred to B6 mice, 24hrs later mice immunized; 24hrs later cells sorted on MHC class II-, CD45.1+, CD8+, CD69+ Two arrays were performed per sample for a total of 8 arrays. RAW data file (supplementary file on the Series record) contains the data for each array individually.

Project description:A unified synthesis of skeletally-diverse sulfonyl fluorides was developed that relied upon photoredox-catalysed dehydrogenative couplings between hetaryl sulfonyl fluorides and hydrogen donor building blocks. A set of 32 diverse probes were prepared, and then screened against Trypanosoma brucei. Four of the probes were found to have sub-micromolar anti-trypanosomal activity. A chemical proteomic approach, harnessing an alkynylated analogue and broad-spectrum fluorophosphonate tools, provided insights into the observed anti-trypanosomal activity, which likely stems from covalent modification of multiple protein targets.

Project description:The current study established the high correlation between the changes in physiological characteristics and mRNA and protein expression profiles in lses1 leaves, and emphasized the positive effect of excessive starch on accelerating premature leaf senescence. The expression patterns of genes/proteins related to starch biosynthesis and ABA signaling were analyzed via transcriptomes and proteomes, which provided a novel direction and research basis for the subsequent exploration of the regulation mechanism of temporary starch and apoptosis via LSES1/OsCKI1 in rice.

Project description:Interstitial cystitis/bladder pain syndrome (IC/BPS) is a chronic and debilitating pain disorder of the bladder and urinary tract with poorly understood etiology. A definitive diagnosis of IC/BPS can be challenging because many symptoms of IC/BPS are shared with other urological disorders. An analysis of urine presents an attractive and non-invasive resource for monitoring and diagnosing IC/BPS. Here, a non-targeted LC-MS and LC-MS/MS-based peptidomics analysis of urine samples collected from IC/BPS patients were compared to urine samples from asymptomatic controls.