EC:2.7.11.10 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.10 (IKK)
4,900 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The innate immune system senses nucleic acids by germline-encoded pattern recognition receptors. RNA is sensed by Toll-like receptor members TLR3, TLR7 and TLR8, or by the RNA helicases RIG-I (also known as DDX58) and MDA-5 (IFIH1). Little is known about sensors for cytoplasmic DNA that trigger antiviral and/or inflammatory responses. The best characterized of these responses involves activation of the TANK-binding kinase (TBK1)-interferon regulatory factor 3 (IRF3) signalling axis to trigger transcriptional induction of type I interferon genes. A second, less well-defined pathway leads to the activation of an 'inflammasome' that, via caspase-1, controls the catalytic cleavage of the pro-forms of the cytokines IL1beta and IL18 (refs 6, 7). Using mouse and human cells, here we identify the PYHIN (pyrin and HIN domain-containing protein) family member absent in melanoma 2 (AIM2) as a receptor for cytosolic DNA, which regulates caspase-1. The HIN200 domain of AIM2 binds to DNA, whereas the pyrin domain (but not that of the other PYHIN family members) associates with the adaptor molecule ASC (apoptosis-associated speck-like protein containing a caspase activation and recruitment domain) to activate both NF-kappaB and caspase-1. Knockdown of Aim2 abrogates caspase-1 activation in response to cytoplasmic double-stranded DNA and the double-stranded DNA vaccinia virus. Collectively, these observations identify AIM2 as a new receptor for cytoplasmic DNA, which forms an inflammasome with the ligand and ASC to activate caspase-1.
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PMID:AIM2 recognizes cytosolic dsDNA and forms a caspase-1-activating inflammasome with ASC. 1915 75

The aims of this study were to 1) identify the earliest transcriptional response of the bovine endometrium to the presence of the conceptus (using RNAseq), 2) investigate if these genes are regulated by interferon tau (IFNT) in vivo, and 3) determine if they are predictive of the pregnancy status of postpartum dairy cows. RNAseq identified 459 differentially expressed genes (DEGs) between pregnant and cyclic endometria on day 16. Quantitative real-time PCR analysis of selected genes revealed PARP12, ZNFX1, HERC6, IFI16, RNF213, and DDX58 expression increased in pregnant compared with cyclic endometria on day 16 and were directly upregulated by intrauterine infusion of IFNT in vivo for 2 h (P < 0.05). On day 13 following estrous endometrial expression of nine genes increased [ARHGAP1, MGC127874, LIMS2, TBC1D1, FBXL7, C25H16orf71, LOC507810, ZSWIM4, and one novel gene (ENSBTAT00000050193)] and seven genes decreased (SERBP1, SRGAP2, AL7A1, TBK1, F2RL2, MGC128929, and WBSCR17; P < 0.05) in pregnant compared with cyclic heifers. Of these DEGs, significant differences in expression between pregnant and cyclic endometria were maintained on day 16 for F2RL2, LIMS2, LOC507810, MGC127874, TBC1D1, WBSCR17, and ZSWIM4 (P < 0.05) both their expression was not directly regulated by IFNT in vivo. Analysis of the expression of selected interferon-stimulated genes in blood samples from postpartum dairy cows revealed a significant increase (P < 0.05) in expression of ZXFX1, PARP12, SAMD9, and HERC6 on day 18 following artificial insemination in cows subsequently confirmed pregnant compared with cyclic controls. In conclusion, RNAseq identified a number of novel pregnancy-associated genes in the endometrium of cattle during early pregnancy that are not regulated by IFNT in vivo. In addition, a number of genes that are directly regulated by short term exposure to IFNT in vivo are differentially expressed on day 18 following estrus detection in the blood of postpartum dairy cows depending on their pregnancy status.
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PMID:Evidence for an early endometrial response to pregnancy in cattle: both dependent upon and independent of interferon tau. 2275 20

DDX58/RIG-I, is a critical pattern recognition receptor for viral RNA, which plays an essential role in antiviral immunity. Its posttranslational modifications and stability are tightly regulated to mediate the moderate production of type I IFN to maintain the immune homeostasis. Recently, we reported that macroautophagy/autophagy balances type I IFN signaling through selective degradation of ISG15-associated DDX58 via LRRC25. However, the regulatory mechanism about the autophagic degradation of DDX58 remains largely undefined. Here, we identified LRRC59 as a vital positive regulator of DDX58-mediated type I IFN signaling. Upon virus infection, LRRC59 specifically interacted with ISG15-associated DDX58 and blocked its association with LRRC25, the secondary receptor to deliver DDX58 to autophagosomes for SQSTM1/p62-dependent degradation, leading to the stronger antiviral immune responses. Thus, our study reveals a novel regulatory role of selective autophagy in innate antiviral responses mediated by the cross-regulation of LRRC family members. These data further provide insights into the crosstalk between autophagy and innate immune responses.Abbreviations: ATG: Autophagy-related; Baf A₁: Bafilomycin A₁; DDX58/RIG-I: DEAD [Asp-Glu-Ala-Asp] box polypeptide 58; EV: Empty vector; IC poly[I:C]: Intracellular polyriboinosinic polyribocytidylic acid; IFIH1/MDA5: Interferon induced with helicase C domain 1; IFN: Interferon; ISG15: ISG15 ubiquitin like modifier; IKBKE: Inhibitor of nuclear factor kappa B kinase subunit epsilon; IRF3: Interferon regulatory factor 3; KO: Knockout; LRRC: Leucine rich repeat containing; MAVS: Mitochondrial antiviral signaling protein; CGAS/MB21D1: Cyclic GMP-AMP synthase; SeV: Sendai virus; siRNA: small interfering RNA; SQSTM1/p62: Sequestosome 1; TBK1: TANK binding kinase 1; TLR: Toll like receptor; TMEM173/STING: Transmembrane protein 173; VSV: Vesicular stomatitis virus; WT: Wild type.
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PMID:LRRC59 modulates type I interferon signaling by restraining the SQSTM1/p62-mediated autophagic degradation of pattern recognition receptor DDX58/RIG-I. 3106 71