Project description:Cellular and inflammatory events were evaluated in mouse muscle after snake venoms Daboia russelii and Bothrops asper injection over time. A murine model of muscle necrosis based on venom injection was used to investigate up to 800 genes involved in fibrosis diseases and tissue regeneration using the multiplex RNA panel Fibrosis V2 from NanoString technology.

Project description:Mass spectrometry (MS)-based top-down proteomics (TDP) delineates proteoforms in cells and requires high-resolution proteoform separation. Herein, for the first time, we employed an automated capillary isoelectric focusing-tandem MS (cIEF-MS/MS) system for large-scale TDP of complex proteomes. Single-shot cIEF-MS/MS identified 771 proteoforms from an Escherichia coli (E. coli) proteome consuming only nanograms of proteins. Coupling two-dimensional size exclusion chromatography (SEC)-cIEF, named “gel-free 2D-PAGE”, to ESI-MS/MS enabled the identification of nearly 2000 proteoforms from the E. coli proteome. Label-free quantitative TDP of zebrafish male and female brains using the SEC-cIEF-MS/MS quantified thousands of proteoforms and revealed sex-dependent proteoform profiles in brains. We discovered several proteolytic proteoforms of pro-opiomelanocortin and prodynorphin with significantly higher abundance in male brains as potential endogenous hormone proteoforms. Multi-level quantitative proteomic analyses (TDP and bottom-up proteomics (BUP)) of the brains revealed that majority of proteoforms having statistically significant difference in abundance between genders (TDP) showed no abundance difference at the corresponding protein group level (BUP), which highlights the importance of delineating proteins in a proteoform-specific manner for accurately understanding protein function.

Project description:Conventional mass spectrometry (MS)-based bottom-up proteomics (BUP) analysis of protein corona [i.e., an evolving layer of biomolecules, mostly proteins, formed on the surface of nanoparticles (NPs) during their interactions with biomolecular fluids] enabled nanomedicine community to partly identify the biological identity of NPs. Such an approach, however, fails pinpoint the specific proteoforms—distinct molecular variants of proteins, which is essential for prediction of the biological fate and pharmacokinetics of nanomedicines. Recognizing this limitation, this study pioneers a robust and reproducible MS-based top-down proteomics (TDP) technique for precisely characterizing proteoforms in the protein corona. Our TDP approach has successfully identified hundreds of proteoforms in the protein corona of polystyrene NPs, ranging from 3-70 kDa, revealing over 20 protein biomarkers with combinations of post-translational modifications, signal peptide cleavages, and/or truncations—details that BUP could not fully discern. This advancement in MS-based TDP offers a more comprehensive and exact characterization of NP protein coronas, deepening our understanding of NPs' biological identities and potentially revolutionizing the field of nanomedicine.

Project description:Background: Bothrops atrox is known to be the pitviper responsible for most snakebites and human fatalities in the Amazon region. It can be found in a wide geographical area including the northern South America, the east of Andes and the Amazon basin. Possibly due to its wide distribution range and generalist feeding, intraspecific venom variation was reported by previous proteomics studies. Sex-based and ontogenetic variations on venom compositions of Bothrops snakes were also subject of proteomic and peptidomic analysis. However, the venom peptidome of B. atrox remains unknown. Methods: we conducted a mass spectrometry-based analysis of the venom peptides of individual male and female specimens combining bottom-up and top-down approaches. Results: We identified in B. atrox a total of 105 native peptides in the mass range of 0.4 to 13.9 kDa. Quantitative analysis showed that Phospholipase A2 and Bradykinin Potentiating Peptides were the most abundant peptide families in both genders, but the disintegrins levels were significantly increased in the venoms of females. Known peptides processed at non-canonical sites and new peptides were also revealed in this work. Conclusion: The venom peptidomes of male and female specimens of B. atrox were analyzed by mass spectrometry-based approaches in this work. The study points to differences in the disintegrin levels in the venoms of females that may result in distinct pathophysiology in envenomation. Further research is needed to explore its biological implications.

Project description:Top-down venom proteome analysis of reduced (TCEP) and native venom samples from twelve turkish viper species.

Project description:VENOM GLAND TRANSCRIPTOME OF BOTHROPS NEUWIEDI

Project description:Transcriptome of Venom Gland of Bothrops jararaca

Project description:Top-down venom proteome analysis of reduced (TCEP) and native venom samples from twelve turkish viper species.

Project description:Top-down Proteomics of Venom from Naja haje from the Berlin Zoo. 4 technical replicates from TCEP reduced crude venom and 1 replicate from native venom.

Project description:Venom proteome of the viperid snake Bothrops bilineatus from Peru