Project description:Patients with anti-MPO vasculitis have increased serum levels of the signalling molecule cGAMP suggestive of ongoing DNA recognition by the cGAS/STING pathway. Consistent with this gene set enrichment analysis of peripheral blood mononuclear cell transcriptomes from patients with active anti-MPO vasculitis revealed up-regulation of type 1 interferon response genes compared to healthy controls.

Project description:In mammals, the cGAS-cGAMP-STING pathway is crucial for sensing viral infection and initiating an anti-viral type I interferon response. cGAS and STING are highly conserved genes that originated in bacteria and are present in most animals. By contrast, interferons only emerged in vertebrates; thus, the function of STING in invertebrates is unclear. Here, we use the STING ligand 2'3'-cGAMP to activate immune responses in a model cnidarian invertebrate, the starlet sea anemone Nematostella vectensis. Using RNA-Seq, we found that 2'3'-cGAMP induces robust transcription of both anti-viral and anti-bacterial genes, including the conserved transcription factor NF-κB. Knockdown experiments identified a role for NF-κB in specifically inducing anti-bacterial genes downstream of 2'3'-cGAMP, and some of these genes were also found to be induced during Pseudomonas aeruginosa infection. Furthermore, we characterized the protein product of one of the putative anti-bacterial genes, the N. vectensis homolog of Dae4, and found that it has conserved anti-bacterial activity. This work describes an unexpected role of a cGAMP sensing pathway in anti-bacterial immunity and suggests that a broad transcriptional response is an evolutionarily ancestral output of 2'3'-cGAMP signaling in animals.

Project description:Activation of the STING (Stimulator of Interferon Genes) pathway by microbial or self-DNA, as well as cyclic di nucleotides (CDN), results in the induction of numerous genes that suppress pathogen replication and facilitate adaptive immunity. However, sustained gene transcription is rigidly prevented to avoid lethal STING-dependent pro-inflammatory disease by mechanisms that remain unknown. We demonstrate here that after autophagy-dependent STING delivery of TBK1 (TANK-binding kinase 1) to endosomal/lysosomal compartments and activation of transcription factors IRF3 (interferon regulatory factors 3) and NF-κB (nuclear factor kappa beta), that STING is subsequently phosphorylated by serine/threonine UNC-51-like kinase (ULK1/ATG1) and IRF3 function is suppressed. ULK1 activation occurred following disassociation from its repressor adenine monophosphate activated protein kinase (AMPK), and was elicited by CDN’S generated by the cGAMP synthase, cGAS. Thus, while CDN’s may initially facilitate STING function, they subsequently trigger negative-feedback control of STING activity, thus preventing the persistent transcription of innate immune genes. Total RNA obtained from primary STING deficient mouse embryonic fibroblast reconstituted with mSTING (W), S365A variant (A), or S365D variant (D). These cells were transfected with dsDNA (ISD) for 3 hours.

Project description:DNA sensing is a fundamental process in the immune system, including host defence against viruses. The DNA sensor cGAS synthesises 2’3’ cyclic GMP-AMP (cGAMP), a second messenger that activates STING, which subsequently induces innate immunity. cGAMP not only activates STING in the cell where it is produced but also transfers to other cells. Transporters, channels and pores including SLC19A1, the SLC46A family, P2X7, ABCC1 and volume-regulated anion channels (VRACs) release cGAMP into the extracellular space and/or import cGAMP into cells. Emerging evidence suggests these proteins are important in antiviral immunity. Here, we investigated whether viruses antagonise cGAMP transporters, channels and pores. We report that infection with multiple human viruses depleted cGAMP conduits from cells. This included herpes simplex virus 1 (HSV-1) that targeted the VRAC subunits LRRC8A and LRRC8C, as well as SLC46A2 and P2X7, for degradation. The HSV-1 protein UL56 was required and sufficient for these effects that were mediated at least partially by proteasomal turnover. UL56 thereby inhibited the cGAMP uptake via VRAC, SLC46A2 and P2X7. Taken together, we show that HSV-1 actively antagonises cGAMP transfer across the plasma membrane and propose this limits innate immunity by reducing cell-to-cell communication via the immunotransmitter cGAMP.

Project description:Here, we characterize the Plasmodium falciparum NEDD8 and demonstrate that P. falciparum cullins are NEDD8 substrates. This work lays the foundation for understanding the role of protein neddylation in malaria parasites.

Project description:Here, we characterize the Plasmodium falciparum NEDD8 and demonstrate that P. falciparum cullins are NEDD8 substrates. This work lays the foundation for understanding the role of protein neddylation in malaria parasites.

Project description:We report positional cloning and characterization of a novel Sting allele that fails to activate IFN production in the wild-derived mice of MOLF/Ei strain in response to HSV (Herpes Simplex Virus) and Listeria monocytogenes both in vitro and in vivo. We show that previously uncharacterized mutations in the N-terminal of STING are responsible for low levels of IFN due to failure of MOLF STING to respond to cytosolic STING agonists such as 2’3’cGAMP, 5,6-Dimethylxanthenone-4-acetic acid (DMXAA) or poly(deoxyadenylic-deoxythymidylic) acid (dAdT). Using Next-Generation Sequencing (NGS) for the analysis of DNA-responses in congenic C57BL6.StingMOLF/MOLF (MOLF STING) mouse macrophages, we show that these mutations in MOLF/Ei discriminate in responses between different STING agonists. Macrophages from C57BL6.StingB6/B6¬ (B6 STING), or B6 STING expressing littermates were stimulated as a positive control for STING activation, and STING -/- (STING KO) macrophages served as a negative control. To examine differential gene regulation downstream of murine Tmem173 (STING) allelic variants. We stimulated macrophages from B6 mice congenic for MOLF STING; macrophages from B6 STING expressing littermates were stimulated as a positive control for STING activation, and STING -/- (STING KO) macrophages served as a negative control. One replicate of RNA-seq reads after each stimulation provided. Conditions are peritoneal macrophages from B6 congenic mice expressing: B6 STING, MOLF STING, or STING KO stimulated with 2’3’cGAMP, 5,6-Dimethylxanthenone-4-acetic acid (DMXAA), poly(deoxyadenylic-deoxythymidylic) acid (dAdT), or no treatment. This constitutes a total of 12 reads analyzed in this data set.

Project description:The accumulation of DNA in the cytosol serves as a key immunostimulatory signal associated with infections, cancer and genomic damage. Cytosolic DNA triggers immune responses by activating the cGAS/STING pathway. The binding of DNA to the cytosolic enzyme cGAMP synthase (cGAS), activates its enzymatic activity, leading to the synthesis of a second messenger, cyclic[G(2’,5’)pA(3’,5’)] (2’3’-cGAMP). 2’3’-cGAMP, a cyclic dinucleotide (CDN), activates the protein ‘stimulator of interferon genes’ (STING), which in turn activates the transcription factors IRF3 and NF-κB promoting the transcription of genes encoding type I interferons and other cytokines and mediators that stimulate a broader immune response. Exogenous 2’3’-cGAMP produced by malignant cells and other CDNs, including CDNs produced by bacteria and synthetic CDNs used in cancer immunotherapy, must traverse the cell membrane to activate STING in target cells. How these charged CDNs pass through the lipid bilayer is unknown. Here we used a genome-wide CRISPR interference screen to identify the reduced folate carrier SLC19A1, a folate-organic phosphate antiporter, as the major transporter for CDNs. CDN uptake and functional responses are inhibited by depleting SLC19A1 from human cells and enhanced by overexpressing SLC19A1. In both human cell lines and primary cells ex vivo, CDN uptake is inhibited by folates, as well as two medications approved for treatment of inflammatory diseases, sulfasalazine and the antifolate methotrexate. The identification of SLC19A1 as the major transporter of CDNs into cells has implications for the immunotherapeutic treatment of cancer, host responsiveness to CDN-producing pathogenic microorganisms, and potentially in certain inflammatory diseases.

Project description:Neddylation is coupled with tumor-cell survival by its well-characterized substrates Cullins. However, how neddylation impacts the tumor immune microenvironment is not clear. SENP8 deconjugates NEDD8 from non-Cullin targets to maintain the dynamic and reversible neddylation equilibrium. CD47 treated SENP8+/+ and SENP8+/- BMDMs were detected to show impacted gene transcription.

Project description:DNA derived from the genetic material of pathogens or from cellular DNA damage provides a molecular pattern that can be sensed by pattern-recognition receptors of the mammalian innate immune system. In recent years, the cyclic GMP-AMP synthase (cGAS) protein has been characterized as a primary cytosolic DNA sensor during infection with bacteria, DNA viruses, or retroviruses. While the role of cGAS in downstream immune signaling through STING-TBK1-IRF3 proteins is well-defined, regulatory mechanisms of cGAS activity, such as through post-translational modifications (PTMs), are still an active area of research. Here, we report a comprehensive characterization of cGAS phosphorylations and acetylations in three different cell types. Data-dependent proteomic analyses of immunoaffinity purified cGAS was performed in HEK293T cells under control and DNA-challenged conditions (N = 3 each) and human fibroblasts (HFF) cells under control and HSV-1 infected conditions (N = 4 each) to generate candidate cGAS PTM sites. Using parallel reaction monitoring, a total of 11 PTMs (4 phosphorylations and 7 acetylations) were validated in HEK293T, HFF, and THP-1 cells. Of these, 3 phosphorylations and 5 acetylations have not been previously identified. The functions of these modifications were by generating a series of mutants and measuring cGAS-dependent apoptotic and immune signaling activities.