Project description:Ultra high pressure liquid chromatography (UHPLC) systems combined with state of the art mass spectrometers have pushed the limit of deep proteome sequencing to new heights making it possible to identify thousands of proteins in a single LC/MS experiment within a few hours. However, the relationship between gradient length and the number of proteins identified is not linear and as gradient time increases to several hours, performance gain diminishes. Proteome coverage can be extended using 2-dimensional chromatography, but traditionally this comes at the expense of sample losses and much longer analysis times. Here, we asked the question whether a fast and sensitive online 2D SCX-RP UHPLC-MS/MS workflow, could compete with the current 1D long gradient analysis, making total analysis time- versus proteome coverage and sample used as benchmark parameters. Our new automated 2D-LC/MS system is robust and easy to use, consisting of a homemade SCX column, a trap column and a 50 cm analytical EASY-Spray column. We benchmark the system using small amounts of a human cell lysate digest. The 2D SCX-RP UHPLC-MS/MS workflow allowed us to identify 56600 unique peptides and 5958 proteins in a total analysis time of just over 8 hours. On the same system a 1D RP UHPLC-MS/MS workflow gave only 22000 peptides and 4200 unique proteins in 6 hours analysis time, increases of 157% and 42% at the peptide and protein level, respectively. These and other data reported here reveal that with this fast online SCX-RP UHPLC-MS/MS workflow proteome coverage can be substantially extended without compromising too much analysis time and sample usage

Project description:a ‘multi-in-one’ strategy to saturate the phosphosite coverage from multiple-proteases by one-step enrichment and one-shot analysis in just over one hour, through data-independent acquisition (DIA)

Project description:Radiation pneumonitis (RP) is a common and fatal complication in thoracic radiation therapy. The immune microenvironment plays an important role in the RP development. However, the full scope of radiation immune changes over time remains unclear. In this study, a murine model of RP was established, and distinct early (10 days) and late phases (100 days) were defined. We conducted single-cell RNA sequencing and related RNA-seq and proteomics to explore the underlying mechanisms of persistent inflammation during RP. By examining the immunological effects of RP over time at the single-cell level, we shed light on its dynamic immunological effects of RP over time at single-cell resolution and provided potential therapeutic targets for clinical interventions.

Project description:Capillary zone electrophoresis-mass spectrometry (CZE-MS) has been recognized as a valuable technique for proteomics of mass-limited biological samples (i.e., single cells) due to its high efficiency and high sensitivity for peptide separation and detection. However, its broad adoption for single cell proteomics (SCP) of human cells has been impeded by the low sample loading capacity of CZE, only allowing to use less than 5% of the available peptide material for measurements. Here we present a reversed-phase based solid phase microextraction (RP-SPME)-CZE-MS platform to solve the low sample loading capacity issue of CZE, paving the way for SCP of human cells using CZE-MS. The RP-SPME-CZE system was constructed in one fused silica capillary with zero dead volume for connection via in-situ synthesis of a frit, followed by packing C8 beads into the capillary to form a roughly 2-mm-long SPME section. Peptides were captured by SPME, and then eluted with a buffer containing 30%(v/v) acetonitrile and 50 mM ammonium acetate (pH 6.5), followed by dynamic pH junction-based CZE-MS. The SPME-CZE-MS enabled the injection of nearly 40% of the available peptide sample for measurements. The system identified 257 ± 24 proteins and 523 ± 69 peptides (N=2) when only 0.25 ng of a commercial HeLa cell digest was available in the sample vial and 0.1 ng of the sample was injected. The available peptide amount is equivalent to the protein mass of two HeLa cells. The data indicates that SPME-CZE-MS offers sufficient sensitivity for SCP of human cells.

Project description:We have collected material from a patient who had BrafV600E mutant melanoma that was treated with PLX4032. We have germline DNA from the patient and DNA and RNA from distinct lesions before and after treatment with PLX4032. We have transcriptome sequenced these samples to obtain a snap shot of the mechanisms of resistance that are operative.

Project description:In this study, we investigated the benefits of adding high-field asymmetric ion mobility spectrometry (FAIMS) separation prior to data dependent acquisition (DDA) and gas phase fractionation (GPF) prior to data independent acquisition (DIA) LC-MS/MS analysis. Native digestion followed by LC-MS/MS with FAIMS allowed the identification of 221 HCPs among which 158 were reliably quantified for a global amount of 880 ng/mg of NIST mAb Reference Material. Our methods have also been applied to commercial DPs and demonstrate their ability to dig deeper into the HCP landscape with the identification of 60 and 67 HCPs, and accurate quantification of 29 and 31 of these impurities in nivolumab and trastuzumab respectively, with sensitivity down to the sub-ng/mg of mAb level.

Project description:In this study, we investigated the benefits of adding high-field asymmetric ion mobility spectrometry (FAIMS) separation prior to data dependent acquisition (DDA) and gas phase fractionation (GPF) prior to data independent acquisition (DIA) LC-MS/MS analysis. Native digestion followed by LC-MS/MS with FAIMS allowed the identification of 221 HCPs among which 158 were reliably quantified for a global amount of 880 ng/mg of NIST mAb Reference Material. Our methods have also been applied to commercial DPs and demonstrate their ability to dig deeper into the HCP landscape with the identification of 60 and 67 HCPs, and accurate quantification of 29 and 31 of these impurities in nivolumab and trastuzumab respectively, with sensitivity down to the sub-ng/mg of mAb level

Project description:State-of-the-art proteomics-grade mass spectrometers can measure peptide precursors and their fragments with ppm mass accuracy at sequencing speeds of tens of peptides per second with attomolar sensitivity. Here we describe a compact and robust quadrupole-orbitrap mass spectrometer equipped with a front-end High Field Asymmetric Waveform Ion Mobility Spectrometry (FAIMS) Interface. The performance of the Orbitrap Exploris 480 mass spectrometer is evaluated in data-dependent acquisition (DDA) and data-independent acquisition (DIA) modes in combination with FAIMS. We demonstrate that different compensation voltages (CVs) for FAIMS are optimal for DDA and DIA, respectively. Combining DIA with FAIMS using single CVs, the instrument surpasses 2500 peptides identified per minute. This enables quantification of >5000 proteins with short online LC gradients delivered by the Evosep One LC system allowing acquisition of 60 samples per day. The raw sensitivity of the instrument is evaluated by analyzing 5 ng of a HeLa digest from which >1000 proteins were reproducibly identified with 5 minute LC gradients using DIA-FAIMS. To demonstrate the versatility of the instrument we recorded an organ-wide map of proteome expression across 12 rat tissues quantified by tandem mass tags and label-free quantification using DIA with FAIMS to a depth of >10,000 proteins.

Project description:To identify molecular changes underlying the chemopreventive or tumor promoting effects of SRD5A inhibition, we profiled gene expression changes in benign prostate epithelium from patients with PCa treated with dutasteride, a dual SRD5A inhibitor. Subjects were aged 45-80 years with clinically localized PCa (T1C to T2b), Gleason score <7, and serum PSA 2.5-10 ng/dL. 81 men were randomized to immediate RP (n=25) or to dutasterdie at 0.5 mg (n=26) or 3.5 mg (n=24) orally per day for four months prior to RP. Prostate samples embedded in OCT were used for laser capture microdissection (LCM). Keywords: clinical trial, Dutasteride, PEDB, dose response, prostate cancer, microarray Subjects were aged 45-80 years with clinically localized PCa (T1C to T2b), Gleason score <7, and serum PSA 2.5-10 ng/dL. 81 men were randomized to immediate RP (n=25) or to dutasterdie at 0.5 mg (n=26) or 3.5 mg (n=24) orally per day for four months prior to RP. Prostate samples embedded in OCT were used for laser capture microdissection (LCM). Approximately 2000-3000 epithelial cells per sample were collected from 8µm sections using the Arcturus Veritas™ Laser Capture Microdissection System according to the Arcturus HistoGene LCM Frozen Section Staining Kit Protocol (Mountain View, CA). Total RNA was isolated using the Arcturus Picopure™ Kit, and the samples were treated with DNAse using the Qiagen RNase-Free DNase Set (Qiagen Inc, Valencia, CA). Total RNA was subjected to two rounds of linear amplification using the Ambion MessageAmpII Kit (Ambion Inc, Austin, TX), quantitated in a Gene-Spec III spectrophotometer (Hitachi, Tokyo) and aRNA integrity evaluated using gel electrophoresis. 40 Human Prostate (PEDB) Microarrays were run with sample on the Cy3 channel against a Human Gold Standard (v5) on the Cy5 channel.

Project description:Ultra high pressure liquid chromatography (UHPLC) systems combined with state of the art mass spectrometers have pushed the limit of deep proteome sequencing to new heights making it possible to identify thousands of proteins in a single LC/MS experiment within a few hours. However, the relationship between gradient length and the number of proteins identified is not linear and as gradient time increases to several hours, performance gain diminishes. Proteome coverage can be extended using 2-dimensional chromatography, but traditionally this comes at the expense of sample losses and much longer analysis times. Here, we asked the question whether a fast and sensitive online 2D SCX-RP UHPLC-MS/MS workflow, could compete with the current 1D long gradient analysis, making total analysis time- versus proteome coverage and sample used as benchmark parameters. Our new automated 2D-LC/MS system is robust and easy to use, consisting of a homemade SCX column, a trap column and a 50 cm analytical EASY-Spray column. We benchmark the system using small amounts of a human cell lysate digest. The 2D SCX-RP UHPLC-MS/MS workflow allowed us to identify 56600 unique peptides and 5958 proteins in a total analysis time of just over 8 hours. On the same system a 1D RP UHPLC-MS/MS workflow gave only 22000 peptides and 4200 unique proteins in 6 hours analysis time, increases of 157% and 42% at the peptide and protein level, respectively. These and other data reported here reveal that with this fast online SCX-RP UHPLC-MS/MS workflow proteome coverage can be substantially extended without compromising too much analysis time and sample usage