Project description:Well-characterized archival FFPE tissues are of much value for prospective biomarker discovery studies. Protocols that offer high-throughput and good reproducibility are essential in proteomics. Therefore, we developed a workflow implementing efficient paraffin removal and protein extraction from FFPE tissues, followed by digestion using suspension Trapping (S-Trap). The protocol was then combined with isobaric labeling/TMTpro 16plex and applied to lung adenocarcinoma patient samples. In total, 9,585 proteins were quantified, and proteins related to clinical outcome and histopathological subtype were detected. Since acetylation is known to play a major role in cancer development, an on-filter acetylation protocol was developed for studying endogenous lysine acetylation. Our method allows identification and localization of lysine acetylation and quantitative comparison between samples. We identified 1,839 acetylated peptides belonging to 1,339 protein groups and showed that the data obtained from FFPE tissues is in concordance with acetylation data from frozen tissues. In summary, we present a reproducible sample preparation workflow optimized for FFPE tissues that resolves known proteomic-related challenges. We demonstrate compatibility of the S-Trap with TMTpro 16plex labeling. And, for the first time, we prove that it is feasible to study endogenous lysine acetylation stoichiometry in FFPE tissues, contributing to better utility of the existing global tissue archives.

Project description:In recent years, the use of formalin-fixed paraffin-embedded (FFPE) tissues has increased within cancer research and clinical proteomics. However, the use of FFPE tissues can be demanding due to paraffin embedding and cross-links introduced by the formaldehyde. Here, we developed a workflow implementing efficient paraffin removal and protein extraction from FFPE tissues, followed by optimized digestion using suspension trapping (S-trap), with different clinical proteomics strategies. To gain proteomic depth, the optimized sample preparation protocol was combined with isobaric labeling and applied to three lung adenocarcinoma patient samples. The peptides eluted from the S-trap were labeled with TMT without any desalting step in between. In total, 8,163 proteins were commonly quantified across all channels, and specific proteins related to clinical outcome and histopathological subtype were detected. In addition, we developed a protocol in the S-trap for studying endogenous lysine acetylation stoichiometry using FFPE tonsil tissue. Our method allows identification and localization of lysine acetylation and relative quantification comparison between samples. We could identify 1,839 acetylated peptides belonging to 1,339 protein groups. The results were compared to frozen tissue samples and no notable differences in acetylation pattern were observed. In summary, we present a reproducible sample preparation workflow optimized for FFPE tissues that is easy to scale up using the S-trap 96-well plate. Our results demonstrate compatibility of the S-trap with TMT labeling. And, for the first time, we showed that it is biologically relevant to study endogenous lysine acetylation in FFPE tissues, contributing to a better use of the existing FFPE collections around the world.

Project description:The development of the TMTpro-16plex series expanded the breadth of commercial isobaric tagging reagents by nearly 50% over classic TMT-11plex. In addition to the described 16plex reagents, the proline-based TMTpro molecule can accommodate two additional combinations of heavy carbon and nitrogen isotopes. Here, we introduce the final two labeling reagents, TMTpro-134C and TMTpro-135N, which permit the simultaneous global protein profiling of 18 samples with no missing values. For example, six conditions with three biological replicates can now be perfectly accommodated. We showcase the 18plex reagent set by profiling the proteome and phosphoproteome of a pair of isogenic breast cancer cell lines under three conditions in triplicate. We compare the depth and quantitative performance of this dataset with a TMTpro-16plex experiment in which two samples were omitted. Our analysis revealed similar numbers of quantified peptides and proteins, with high quantitative correlation. We interrogated further the TMTpro-18plex dataset by highlighting changes in protein abundance profiles under different conditions in the isogenic cell lines. We conclude that TMTpro-18plex further expands the sample multiplexing landscape, allowing for complex and innovative experimental designs.

Project description:HEK293T subject to Single AA starvation dataset and translatome analysis was determined using Azidohomoalanine (AHA) incorportation, Biotin-click, and streptavidin enrichment. TMTpro 16plex labels was used.

Project description:HEK293T Azidohomoalanine (AHA) Pulse Chase (degradome) time course experiment, were cells from various genetic background (WT, ATG7-/-, RB1CC1-/-) are treated or not with Torin1 for 5h, 10h or 15h. Samples are Biotin-click, and streptavidin enriched, digested and labeled with TMTpro 16plex.

Project description:The discovery of novel protein biomarkers in melanoma is crucial. Our introduction of formalin-fixed paraffin embedded (FFPE) tumor protocol provides new opportunities to understand the progression of melanoma and open the possibility to screen tens of thousands of FFPE samples deposited in tumor biobanks and available at hospital pathology departments. In our retrospective pilot study, 90 FFPE samples from 77 patients were processed. Differential quantitative protein expression was performed by high resolution mass spectrometry. The protein expression profiles were correlated with the standardized dataset of histopathologic analysis, and longitudinal therapeutical meta-data.

Project description:This project is reporting on microdissection proteomics of human operable, non-neoadjuvant treated pancreatic ductal adenocarcinomas (PDAC) with deep coverage of histologically neoplastic and adjacent healthier exocrine glands as well as stromal regions surrounding both. Through proteomic analysis, the parenchymal sample types differed significantly, with the malignant regions characterized by a broad downregulation of digestive enzymes. Instead, the stromal areas were alike, dominated by extracellular matrix proteins and lower expression of most metabolic pathways compared to the exocrine areas. Cholesterol synthesizing enzymes were more abundant in the tumor than stroma, as confirmed by an independent PDAC dataset and immunohistochemistry of PDAC microarrays. However, this was not accompanied by intratumor lipid deposition. Pathways most prognostic for survival were unexpectedly enriched in the histologically healthier exocrine glands, with a specific prognostic marker. Systematic analysis of pancreatic cancer transcriptomes from The Cancer Genome Atlas revealed that increased transcriptional complexity confers poor prognosis in PDAC.

Project description:Transcriptomic analysis using qRT-PCR was performed on fresh frozen clear-cell renal cell carcinoma tissues treated with VEGFR-TKIs in first line (n=109). The transcriptomic data from this experiment were analyzed together with miRNA sequencing data from FFPE samples from the same tumor (E-MTAB-10586), to identify miRNA which were correlated with lower expression of EPAS1, FLT1and KDR and were also predicted to target these genes by miRNA-mRNA interaction databases.

Project description:Many events in viral infection are regulated through post-translational modification. In the case of positive-sense RNA viruses such as SARS-CoV-2 which encodes two viral proteases, proteolytic cleavage of both viral and cellular proteins is crucial for productive viral infection. In this work we study proteolysis in the context of SARS-CoV-2 infection of Vero E6 cells, treated with calpeptin or camostat at 12h post-infection and harvested at 24h post-infection. Our goal was Neo-N-termini and lysine residues were labelled at the protein level with TMTpro reagents prior to tryptic digestion. For unenriched samples, the trypsin-digested material was then fractionated offline, and analysed by LC-MS/MS for the study of total protein abundance over the infection timecourse. For enriched samples, unblocked neo-N-termini generated by tryptic digested were labelled with undecanal and depleted, yielding a sample enriched for blocked neo-N-termini (TMTpro, N-terminal acetylation, and pyroGlu). The enriched samples were similarly fractionated offline and analysed by LC-MS/MS. Please note this is one of several linked datasets.

Project description:Many events in viral infection are regulated through post-translational modification. In the case of positive-sense RNA viruses such as SARS-CoV-2 which encodes two viral proteases, proteolytic cleavage of both viral and cellular proteins is crucial for productive viral infection. In this work we study proteolysis in the context of SARS-CoV-2 infection of Vero E6 cells, treated with calpeptin or camostat at 12h post-infection and harvested at 24h post-infection. Our goal was Neo-N-termini and lysine residues were labelled at the protein level with TMTpro reagents prior to tryptic digestion. For unenriched samples, the trypsin-digested material was then fractionated offline, and analysed by LC-MS/MS for the study of total protein abundance over the infection timecourse. For enriched samples, unblocked neo-N-termini generated by tryptic digested were labelled with undecanal and depleted, yielding a sample enriched for blocked neo-N-termini (TMTpro, N-terminal acetylation, and pyroGlu). The enriched samples were similarly fractionated offline and analysed by LC-MS/MS.