TANK-binding kinase-1 delineates innate and adaptive immune responses to DNA vaccines

Ishii, Ken J.; Kawagoe, Tatsukata; Koyama, Shohei; Matsui, Kosuke; Kumar, Himanshu; Kawai, Taro; Uematsu, Satoshi; Takeuchi, Osamu; Takeshita, Fumihiko; Coban, Cevayir; Akira, Shizuo

doi:10.1038/nature06537

Cited by 567 publications

(511 citation statements)

References 30 publications

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“…41 Furthermore, vaccine action has shown to occur in the absence of Zbp-1, meaning that other pathways, or a combination of pathways, are critical for vaccine action in skeletal muscle. 29 Our data also show that subtle modifications to the DNA, and thus their profile of detection by PRRs, can alter the intensity and duration of inflammation, and consequently the molecular signature of the innate immune response. Future studies are likely to reveal additional pathways for nucleic acid detection, as well as potentially important tissue differences in these pathways.…”

Section: Discussionsupporting

confidence: 57%

“…Vaccine action is already known to occur in the absence of TLR9 signalling, requiring the molecule Tbk1, which is thought to bridge PRR signalling to transcriptional activation. 29,46 However, in our array analysis, we did not detect upregulation of Tbk1 or the related molecule STING, which may partially explain the often limited immunogenicity of muscle in some trials. 41 Furthermore, vaccine action has shown to occur in the absence of Zbp-1, meaning that other pathways, or a combination of pathways, are critical for vaccine action in skeletal muscle.…”

Section: Discussioncontrasting

confidence: 54%

“…The adaptor protein Irak1 was almost twofold downregulated after saline-only ET (0.53 relative expression) and upregulated to near-normal levels in pET muscle (1.19 relative expression), a twofold increase, whereas we could not detect a significant fold change in the other adaptor molecules Tbk1 or STING (Tmem173), which are implicated in vaccine action. 29 In addition to the TLR9 pathway, we identified respective 4.67-and 1.60-fold upregulation of cytoplasmic DNA detectors Zbp-1 and Trex1 after plasmid ET, but not saline ET, whereas Dhx36 was mildly upregulated in ET, but not pET samples (Figure 3a). Figure 3.…”

Section: Go Biological Process Term Mappingmentioning

confidence: 89%

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Molecular signature of the immune and tissue response to non-coding plasmid DNA in skeletal muscle after electrotransfer

et al. 2011

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Electrotransfer of plasmid DNA in skeletal muscle is a common non-viral delivery method for both therapeutic genes and DNA vaccines. Yet, despite the similar approaches, an immune response is detrimental in gene therapy, but desirable for vaccines. However, the full nature of the immune and tissue responses to nucleic acids and electrotransfer in skeletal muscle has not been addressed. Here we used microarray analysis, fluorescence-activated cell sorting and quantitative polymerase chain reaction to obtain the molecular and cellular signature of the tissue and immune response to electrotransfer of saline and non-coding plasmid DNA. Saline electrotransfer resulted in limited infiltration and induction of a moderate damage --repair gene expression pattern not involving innate immune activation. However, plasmid electrotransfer augmented expression of the same genes in addition to inducing a strong innate immune response associated with pro-inflammatory infiltration. In particular, the inflammasome, Toll-like receptor 9 and other pattern recognition receptors able to respond to cytoplasmic DNA were upregulated. Several key differences in the nature of the inflammatory infiltrate and the kinetics of gene expression were also identified when comparing electrotransfer of conventional and CpG-free plasmids. Our data provide insights into the mechanisms of DNA detection and response in muscle that has relevance for non-viral gene therapy and DNA vaccination.

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Section: Discussionsupporting

confidence: 57%

Section: Discussioncontrasting

confidence: 54%

Section: Go Biological Process Term Mappingmentioning

confidence: 89%

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Molecular signature of the immune and tissue response to non-coding plasmid DNA in skeletal muscle after electrotransfer

et al. 2011

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“…IL-1b secretion is governed by the DNA sensor AIM2 that has recently been identified [11][12][13][14]. IFN-b production is regulated by the DNA-dependent activator of IFN-regulatory factors (DAI, formerly known as DLM-1/ZBP1) [15] and as-yet unknown DNA sensors [16,17]. With regard to the IFN pathway, it has been suggested that the B-conformation of DNA is stimulatory, whereas Z-DNA is not [9].…”

mentioning

confidence: 99%

The TLR‐independent DNA recognition pathway in murine macrophages: Ligand features and molecular signature

et al. 2009

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Recognition of foreign DNA by cytosolic innate immune receptors triggers the production of IFN-b. However, it is unclear whether different types of DNA ligands are recognized by similar receptors and whether the resulting response is distinct from the endosomal TLR response. To address these questions, we compared the two most commonly used types of DNA ligands (IFN-stimulatory DNA (ISD) and poly(dAdT)) and assessed the minimal structural requirements for stimulatory capacity in RAW264.7 cells. Gene expression signatures and competition experiments suggest that ISD and poly(dAdT) are qualitatively indistinguishable and differ from the CpG-containing oligonucleotides triggering the TLR9 pathway. Structure -activity relationship analyses revealed that a minimal length of two helical turns is sufficient for ISD-mediated IFN-b induction, while phosphorylation at the 5 0 -end is dispensable. Altogether, our data suggest that, in murine macrophages, only one major cytosolic DNA recognition pathway is operational. IntroductionInnate immunity represents the first line of defense against invading pathogens. PRR recognize molecular features that are conserved among many pathogens, so called PAMP. PRR are localized on the plasma membrane, the endosome or the cytosol and belong to distinct classes, most notably the TLR, the NOD-like receptors and the RIG-I-like helicases (RLH) [1,2]. Engagement of PRR by specific ligands triggers intracellular signaling cascades that culminate in the production and secretion of type-I IFN, cytokines and chemokines.An invading virus can either be sensed by endosomal TLR (TLR3, 7/8 or 9) or by cytosolic RLH [3], whereas, TLR3 and TLR7/8 recognize viral RNA, TLR9 senses the presence of viral DNA containing CpG motifs [4]. The RLH detect viral RNA in the cytosol [5]. This raises the question of how the host cell Eur. J. Immunol. 2009. 39: 1929-1936 DOI 10.1002 Innate immunity 1929distinguishes between viral and cellular RNA that are simultaneously present in the same subcellular compartment. It has recently been shown that many viral RNA, unlike cellular RNA, contain a triphosphate moiety at the 5 0 -end, which is recognized by RIG-I, the founding member of the RLH family [6,7]. Despite ''thousands of man-years worth of DNA transfections'', it has only recently been noticed that introduction of dsDNA into the cytosol triggers a potent innate immune response, leading to the production of IL-1b, IFN-b and other cytokines [8][9][10]. IL-1b secretion is governed by the DNA sensor AIM2 that has recently been identified [11][12][13][14]. IFN-b production is regulated by the DNA-dependent activator of IFN-regulatory factors (DAI, formerly known as DLM-1/ZBP1) [15] and as-yet unknown DNA sensors [16,17]. With regard to the IFN pathway, it has been suggested that the B-conformation of DNA is stimulatory, whereas Z-DNA is not [9]. Another report suggests that the exchange of the phosphate backbone for a phosphorothioate backbone renders the DNA inert, implying that the DNA backbone is the site of recog...

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“…35,50 In brief, sera from the immunized mice were collected by tail bleeding 2 weeks after the last immunization for anti-HBsAg antibody ELISA assay. For the specific IFN-g assays, commercially available ELISA Kits (R&D Systems) were used according to their manuals.…”

Section: Immunoassaysmentioning

confidence: 99%

Serum amyloid P component facilitates DNA clearance and inhibits plasmid transfection: implications for human DNA vaccine

et al. 2011

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The demonstration that naked plasmid DNA can induce strong immune responses in mice has attracted considerable attention in the vaccine community. However, similar immunizations have been less/not effective in clinical trials during the past decade, and the underlying mechanisms remain unknown. In this study, we hypothesized that some DNA-binding proteins in human serum may serve as host barriers, responsible for the low efficiency of plasmids' transfection in vivo. Using proteomics, we showed that human serum amyloid P component (hSAP) is specifically present in human DNA-protein complexes. Further analysis indicated that hSAP effectively binds plasmid DNA, inhibits DNA transfection into somatic cells and facilitates the endocytosis of DNA by macrophages, whereas mouse SAP (mSAP) has similar, but much weaker, activities. In the presence of hSAP, the plasmid DNA expression in vivo and plasmid DNA-induced immune responses also significantly decreased. Therefore, our results suggest that hSAP contributes to extracellular DNA clearance and the inhibition of plasmid DNA transfection in vivo. This mechanism may be partly responsible for the insufficient immune responses to DNA vaccination in human beings; therefore, it may serve as a novel target for the improvement of DNA vaccines and DNA-based gene therapy.

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TANK-binding kinase-1 delineates innate and adaptive immune responses to DNA vaccines

Cited by 567 publications

References 30 publications

Molecular signature of the immune and tissue response to non-coding plasmid DNA in skeletal muscle after electrotransfer

Molecular signature of the immune and tissue response to non-coding plasmid DNA in skeletal muscle after electrotransfer

The TLR‐independent DNA recognition pathway in murine macrophages: Ligand features and molecular signature

Serum amyloid P component facilitates DNA clearance and inhibits plasmid transfection: implications for human DNA vaccine

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