Project description:The ubiquitin-like modifier ISG15 can modulate host and viral proteins to restrict viral and microbial infections, and act as a cytokine. Its expression and conjugation are strongly up-regulated by type I interferons. Here we identify the deubiquitinating enzyme USP16 as an ISG15 cross-reactive protease. Ubiquitin-specific protease 16 (USP16) was found to react with an ISG15 activity-based probe in pull-down experiments using chronic myeloid leukaemia-derived human cells (HAP1). Supporting this finding, recombinant USP16 cleaved pro-ISG15 and ISG15 iso-peptide linked model substrates in vitro, as well as ISGylated substrates present in cell lysates. Moreover, the interferon-induced stimulation of ISGylation in human HAP1 cells was increased by knockdown or knockout of USP16. Depletion of USP16 did not affect interferon signaling, and interferon treatment did not affect USP16 expression or enzymatic activity either. A USP16-dependent ISG15 interactome was established by anti-ISG15 immunoprecipitation mass spectrometry (IP-MS), which indicated that the deISGylating function of USP16 may regulate metabolic pathways involving GOT1, ALDOA, SOD1 and MDH1, all of which were further confirmed to be deISGylated by USP16 in HEK293T cells. Together, our results indicate that USP16 may contribute to regulating the ISGylation status of a subset of proteins related to metabolism during type I interferon responses.

Project description:This dataset contains ChIP-seq data of H3K4me3 and Pol III in single cell-derived control and CRISPR/Cas9 induced tRNA gene deletion clones in human cancer cell lines HAP1 and HepG2. In this study, we looked into functional Cas9-induced on-target genomic alteration in our tRNA gene deletion clones, HAP1 t72 and HepG2 t15.

Project description:This dataset contains ChIP-seq data profiling genomic binding of H3K27ac and H3K4me3 in single cell-derived control, as well as CRISPR/Cas9 induced tRNA gene deletion clones and intergenic region deletion clones in human cancer cell lines HAP1. In this study, we found a large genomic deletion of 10q23 in Cas9 modified clones and further investigate the effect of H3K27ac binding.

Project description:Interferon (IFN)-stimulated gene 15 (ISG15), a ubiquitin-like protein, is covalently conjugated to host immune proteins such as MDA5 and IRF3 in a process called ISGylation, thereby promoting type I interferon (IFN) induction to limit the replication of Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However, whether SARS-CoV-2 proteins can be directly targeted for ISGylation remains elusive. In this study, we identified the nucleocapsid (N) protein of SARS-CoV-2 as a major substrate of ISGylation catalyzed by the host E3 ligase HERC5; however, N ISGylation is readily removed through de-ISGylation by the papain-like protease (PLpro) activity of NSP3. Mass spectrometry analysis identified that the N protein undergoes ISGylation at four lysine residues (K266, K355, K387 and K388), and mutational analysis of these sites in the context of a SARS-CoV-2 replicon (N-4KR) abolished N ISGylation and alleviated ISGylation-mediated inhibition of viral RNA synthesis. Furthermore, our results indicated that HERC5 targets preferentially phosphorylated N protein for ISGylation to regulate its oligomeric assembly. These findings reveal a novel mechanism by which the host ISGylation machinery directly targets SARS-CoV-2 proteins to restrict viral replication and illuminate how an intricate interplay of host (HERC5) and viral (PLpro) enzymes coordinates viral protein ISGylation and thereby regulates virus replication.

Project description:Here, we applied an ISG15-GlyGly peptidomics approach on HeLa cells producing high levels of ISGylated proteins upon stimulation with IFN-α. After obtaining cellular lysates from wild-type and Isg15-/-cells, the samples were incubated with recombinant wild-type or mutant PLpro to catalyze deISGylation of host cellular proteins. After incubation with PLpro, we continued with trypsin digestion to generate diglycine-modified peptides that were subsequently enriched by immunoprecipitation and identified and quantified by LC-MS/MS. By comparing sites across all four conditions, we uncovered 118 ISGylation sites on 95 proteins as targets of the SARS-CoV-2 protease PLpro.

Project description:mTRAN proteins are components of the plant mitochondrial small subunits, thought to bind the mRNA 5' regions to initiate translation. This experiment was designed to identify the mTRAN1 binding regions on the plant mitochondrial mRNAs

Project description:DNA replication and repair defects or genotoxic treatments trigger interferon (IFN)-mediated inflammatory responses. However, whether and how IFN signaling in turn impacts the DNA replication process has remained elusive. Here we show that basal levels of the IFN-stimulated gene 15, ISG15, and its conjugation (ISGylation) are essential to protect nascent DNA from degradation. Moreover, IFN treatment restores replication fork stability in BRCA1/2-deficient cells, which strictly depends on topoisomerase-1, and rescues lethality of BRCA2-deficient mouse embryonic stem cells. Although IFN activates hundreds of genes, these effects are specifically mediated by ISG15 and ISGylation, as their inactivation suppresses the impact of IFN on DNA replication. ISG15 depletion significantly reduces cell proliferation rates in human BRCA1-mutated triple-negative, whereas its upregulation results in increased resistance to the chemotherapeutic drug cisplatin in mouse BRCA2-deficient breast cancer cells, respectively. Accordingly, cells carrying BRCA1/2 defects consistently show increased ISG15 levels, which we propose as a novel, in-built mechanism of drug resistance linked to BRCAness.

Project description:The genome wide ChIP-on-chip analysis to identify the DNA binding sites for the M.tuberculosis sigma factor Rv3286c (SigF) SigF binding sites were determined by microarray analysis of anti-sigF immunoprecipitated DNA from H37Rv(ΔrsbW/sigF)::pmySigF compared to H37Rv(ΔrsbW/sigF)::pMY769 (both cultured with pristinamycin for 3 days). 4 biological replicates were performed.

Project description:Systematic characterization of the plasma proteome in healthy and diseased state may uncover the potential biomarkers of disease diagnosis, prognosis and/or relapse detection. We, in this research project, have employed two-dimensional gel electrophoresis in conjunction with mass spectrometry-based analysis in a proteome-wide search for the identification of biomarkers of chronic-phase chronic myeloid leukemia (CP-CML).

Project description:We aimed to determine the binding sites of the putative transcriptional regulator PafBC under DNA damage stress induced by mitomycin C or under oxidative stress induced by hydrogen peroxide. Therefore, we chose a ChIP-seq approach, crosslinking cells before PafBC-DNA complexes were immunoprecipitated with a PafBC-specific antibody.