Project description:In this manuscript we describe our work on the development of a label-free chemoproteomics screening platform for cysteine reactive covalent fragments on a 96 well plate format. Within this workflow, we profile cysteine reactive fragments by competition with the hyper-reactive iodoacetamide desthiobiotin (IA-DTB) in cell lysates and live cells. We employ label free quantification and data independent acquisition (DIA) on an Evosep One – Bruker timsTOF Pro. The platform was used to screen a library of 80 Cys-reactive covalent fragments in HEK293T and Jurkat cell lysate, identifying functionally relevant hit fragments for numerous cysteine sites and demonstrating the utility of the approach in expanding the ligandable proteome. We have also validated a number of selective interactions through dose response and further expanded our proteomics platform to perform hit expansion studies and in-cell validation.

Project description:Deubiquitinating enzymes (DUBs) are key regulators of cellular homeostasis, and their dysregulation is associated with several human diseases. The ovarian tumour protease (OTU) family of DUBs are biochemically well-characterised and of therapeutic interest, yet only a few tool compounds exist to study their cellular function and therapeutic potential. Here we present a chemoproteomics fragment screening platform for identifying novel DUB-specific hit matter, that combines activity-based protein profiling with high-throughput chemistry direct-to-biology optimisation to enable rapid elaboration of initial fragment hits against OTU DUBs. Applying these approaches, we identify an enantioselective fragment for OTUD7B, and validate it using chemoproteomics and biochemical DUB activity assays.

Project description:The tripartite motif (TRIM) family of RING-type E3 ligases catalyses the formation of many different types of ubiquitin chains, and as such, plays important roles in diverse cellular functions, ranging from immune regulation to cancer signalling pathways. Few ligands have been discovered for TRIM E3 ligases, and these E3s are under-represented in the rapidly expanding field of induced proximity. Here we present the identification of a novel covalent ligand for the PRYSPRY substrate binding domain of TRIM25. We employ covalent fragment screening coupled with high-throughput chemistry direct-to-biology optimisation to efficiently elaborate covalent fragment hits. We demonstrate that our optimised ligand enhances the in vitro auto-ubiquitination activity of TRIM25 and engages TRIM25 in live cells. We also present the X-ray crystal structure of TRIM25 PRYSPRY in complex with this covalent ligand. Finally, we incorporate our optimised ligand into heterobifunctional proximity-inducing compounds and demonstrate the in vitro targeted ubiquitination of a neosubstrate by TRIM25

Project description:In this manuscript we describe our work on the development of a label-free chemoproteomics screening platform for cysteine reactive covalent fragments on a 96 well plate format. Within this workflow, we profile cysteine reactive fragments by competition with the hyper-reactive iodoacetamide desthiobiotin (IA-DTB) in cell lysates and live cells. We employ label free quantification and data independent acquisition (DIA) on an Evosep One – Bruker timsTOF Pro. The platform was used to screen a library of 80 Cys-reactive covalent fragments in HEK293T and Jurkat cell lysate, identifying functionally relevant hit fragments for numerous cysteine sites and demonstrating the utility of the approach in expanding the ligandable proteome. We have also validated a number of selective interactions through dose response and further expanded our proteomics platform to perform hit expansion studies and in-cell validation.

Project description:Covalent chemistry coupled with activity-based protein profiling (ABPP) offers a versatile way to discover ligands for proteins in native biological systems. Here, we describe a set of stereo- and regio-chemically defined spirocycle acrylamides and their analysis in human cancer cells by cysteine-directed ABPP. Despite showing attenuated reactivity compared to structurally related azetidine acrylamides, the spirocycle acrylamides preferentially liganded specific cysteines on diverse protein classes. One compound ZL-12A stereoselectively promoted the degradation of the TFIIH helicase ERCC3. Interestingly, ZL-12A reacts with the same cysteine (C342) in ERCC3 as the natural product triptolide, which did not lead to ERCC3 degradation but instead caused collateral loss of RNA polymerases. ZL-12A and triptolide cross-antagonized one another’s protein degradation profiles. Finally, we show that the anti-hypertension drug spironolactone — previously found to promote ERCC3 degradation through an enigmatic mechanism — also reacts with ERCC3_C342. Our findings thus describe monofunctional degraders of ERCC3 and highlight how covalent ligands targeting the same cysteine can produce strikingly different functional outcomes.

Project description:Gene expression profiles of L. monocytogenes strain F2365 to osmotic stress was examined. Based on a log2 scale, four and 24 genes were upregulated and downregulated by the stress, respectively.The expression level of ATP-binding cassette superfamily and ribosomal protein L2 genes were increased, whereas genes associated with PTS system, its metabolic enzymes, pathogenesis, and hypothetical protein were downregulated. To examine the gene expression profiles of L. monocytogenes grown in the medium added with or without 1.2% NaCl , L. monocytogenes strains 4b F2365 aminosilane-coated cDNA microarray slide was used. Cy3 and Cy5 dyes were used for cDNA labelling. Data were obtained from three biological and four technical replicates (n = 12). Each biological replicate included a flip dye assay.

Project description:Multiple anticancer drugs have been proposed to cause cell death, in part, by increasing the steady-state levels of cellular reactive oxygen species (ROS). However, for most of these drugs exactly how the resultant ROS function and are sensed is poorly understood. It remains unclear which proteins the ROS modify and their roles in drug sensitivity/resistance. To answer these questions, we examined 11 anticancer drugs with an integrated proteogenomic approach identifying many unique targets but also shared ones–including ribosomal components, suggesting common mechanisms by which drugs regulate translation. We focus on CHK1 which we find is a nuclear H2O2 sensor that launches a cellular program to dampen ROS. CHK1 phosphorylates the mitochondrial-DNA binding protein SSBP1 to prevent its mitochondrial localization, which in turn decreases nuclear H2O2. Our results reveal a druggable nucleus-to-mitochondria ROS sensing pathway–required to resolve nuclear H2O2 accumulation and mediate resistance to platinum-based agents in ovarian cancers.

Project description:The NAD hydrolase (NADase) SARM1 acts as a central executioner of programmed axon death and is a possible therapeutic target for neurodegenerative disorders. While orthosteric inhibitors of SARM1 have been described, this multi-domain enzyme is also subject to intricate forms of autoregulation, suggesting the potential for allosteric modes of inhibition. Previous studies have identified multiple cysteine residues that support SARM1 activation and catalysis, but which of these cysteines, if any, might be selectively targetable by electrophilic small molecules remains unknown. Here we describe the chemical proteomic discovery of a series of tryptoline acrylamides that site-specifically and stereoselectively modify cysteine-311 (C311) in the non-catalytic, autoregulatory armadillo repeat (ARM) domain of SARM1. These covalent compounds inhibit the NADase activity of WT-SARM1, but not C311A or C311S SARM1 mutants, show a high degree of proteome-wide selectivity for SARM1_C311, and stereoselectively block vincristine- and vacor-induced neurite degeneration in primary rodent dorsal root ganglion neurons. Our findings describe selective, covalent inhibitors of SARM1 targeting an allosteric cysteine, pointing to a potentially attractive therapeutic strategy for axon degeneration-dependent forms of neurological disease.

Project description:Transcriptional profiling of A549, U2OS, and Nalm6 comparing dexamethason with vehicle control, 3 hour timepoint Two conditions (treated and untreated), three cell types. Biological replicates: 3 treated and 3 vehicle controls for each cell type. Each array is a two-color hyb of treated vs control in a single cell type (9 arrays total). One dye swap for each condition

Project description:This SuperSeries is composed of the following subset Series: GSE34919: Genome-wide Definition of the SigF Regulon in Mycobacterium tuberculosis (ChIP-chip) GSE34922: Genome-wide Definition of the SigF Regulon in Mycobacterium tuberculosis (Expression) Refer to individual Series