Anne K. Zaiss scite author profile

The innate immune system recognizes nucleic acids during infection and tissue damage. Whereas viral RNA is detected by endosomal toll-like receptors (TLR3, TLR7, TLR8) and cytoplasmic RIG-I and MDA5, endosomal TLR9 and cytoplasmic DAI bind DNA, resulting in the activation of nuclear factor-kappaB and interferon regulatory factor transcription factors. However, viruses also trigger pro-inflammatory responses, which remain poorly defined. Here we show that internalized adenoviral DNA induces maturation of pro-interleukin-1beta in macrophages, which is dependent on NALP3 and ASC, components of the innate cytosolic molecular complex termed the inflammasome. Correspondingly, NALP3- and ASC-deficient mice display reduced innate inflammatory responses to adenovirus particles. Inflammasome activation also occurs as a result of transfected cytosolic bacterial, viral and mammalian (host) DNA, but in this case sensing is dependent on ASC but not NALP3. The DNA-sensing pro-inflammatory pathway functions independently of TLRs and interferon regulatory factors. Thus, in addition to viral and bacterial components or danger signals in general, inflammasomes sense potentially dangerous cytoplasmic DNA, strengthening their central role in innate immunity.

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Helper-Dependent Adenovirus Vectors Elicit Intact Innate but Attenuated Adaptive Host Immune Responses In Vivo

Muruve

Cotter

Zaiss

et al. 2004

J Virol

180

154

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Complement Is an Essential Component of the Immune Response to Adeno-Associated Virus Vectors

Zaiss¹,

Cotter

White

et al. 2008

J Virol

123

131

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Systematic study of constitutive cyclooxygenase-2 expression: Role of NF-κB and NFAT transcriptional pathways

Kirkby

Chan

Zaiss

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

141

114

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Cyclooxygenase-2 (COX-2) is an inducible enzyme that drives inflammation and is the therapeutic target for widely used nonsteroidal antiinflammatory drugs (NSAIDs). However, COX-2 is also constitutively expressed, in the absence of overt inflammation, with a specific tissue distribution that includes the kidney, gastrointestinal tract, brain, and thymus. Constitutive COX-2 expression is therapeutically important because NSAIDs cause cardiovascular and renal side effects in otherwise healthy individuals. These side effects are now of major concern globally. However, the pathways driving constitutive COX-2 expression remain poorly understood. Here we show that in the kidney and other sites, constitutive COX-2 expression is a sterile response, independent of commensal microorganisms and not associated with activity of the inflammatory transcription factor NF-κB. Instead, COX-2 expression in the kidney but not other regions colocalized with nuclear factor of activated T cells (NFAT) transcription factor activity and was sensitive to inhibition of calcineurin-dependent NFAT activation. However, calcineurin/NFAT regulation did not contribute to constitutive expression elsewhere or to inflammatory COX-2 induction at any site. These data address the mechanisms driving constitutive COX-2 and suggest that by targeting transcription it may be possible to develop antiinflammatory therapies that spare the constitutive expression necessary for normal homeostatic functions, including those important to the cardiovascular-renal system. cyclooxygenase | nonsteroidal antiinflammatory drugs | prostacyclin | cardiovascular | Vioxx C yclooxygenase (COX) converts arachidonic acid to prostanoids, which include prostaglandins (PGs), prostacyclin, and thromboxane. Prostanoids are important mediators that regulate diverse functions in the cardiovascular, gastrointestinal, urogenital, and nervous systems, as well as playing critical roles in immunity, inflammation and resolution of inflammation. There are two COX

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Immune Responses to Adeno-Associated Virus Vectors

Zaiss¹,

Muruve

2005

CGT

198

129

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One of the biggest challenges in optimizing viral vectors for gene therapy relates to the immune response of the host. Adeno-associated virus (AAV) vectors are associated with low immunogenicity and toxicity, resulting in vector persistence and long-term transgene expression. The inability of AAV vectors to efficiently transduce or activate antigen presenting cells (APCs) may account for their decreased immunogenicity. AAV mediated gene therapy however, leads to the development of antibodies against the vector capsid. Anti-AAV antibodies have neutralizing effects that decrease the efficiency of in vivo gene therapy and can prevent vector re-administration. Furthermore, recent studies have shown that AAV vectors can elicit both cellular and humoral immune responses against the transgene product. Both cell-mediated response and humoral response to the delivered gene depend on a number of variables; including the nature of the transgene, the promoter used, the route and site of administration, vector dose and host factors. The response of the host to the vector, in terms of antigen-specific immunity, will play a substantial role in clinical outcome. It is therefore important to understand both, why AAV vectors are able to escape immunity and the circumstances and mechanisms that lead to the induction of immune responses. This review will summarize innate and adaptive immune responses to AAV vectors, discuss possible mechanisms and outline strategies, such as capsid modifications, use of alternative serotypes, or immunosuppression, which have been used to circumvent them.

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Activation of p38 and ERK Signaling during Adenovirus Vector Cell Entry Lead to Expression of the C-X-C Chemokine IP-10

Tibbles

Spurrell²,

Bowen³

et al. 2002

J Virol

117

118

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The Role of Capsid–Endothelial Interactions in the Innate Immune Response to Adenovirus Vectors

et al. 2003

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Adenovirus (Ad) vectors can produce inflammatory responses at high doses. Intravenous administration of an Ad vector expressing green fluorescent protein (AdGFP) to naive mice induced a biphasic pattern of liver cytokine/chemokine gene expression over 7 days. Tumor necrosis factor alpha (TNF-alpha), macrophage inflammatory protein 2 (MIP-2), and interferon gamma-inducible protein 10 (IP-10) genes were upregulated, with two distinct peaks of mRNA expression occurring at 6 hr and 5 days. The administration of transcription-defective AdGFP particles induced the early but not the late peak of chemokine/cytokine gene expression, confirming that Ad vector-induced inflammation is capsid dependent in the early phase and transcription dependent in the late phase. To determine the role of adenoviral capsid motifs in the early phase, capsid-modified Ad vectors were employed. The intravenous administration of the RGD-deleted Ad vector AdL.PB*, the fiber mutant AdL.F*, or the double mutant AdL.F*PB* induced similar levels of cytokine/chemokine expression compared with the wild-type vector AdLuc. Kupffer cell blockade significantly reduced liver TNF-alpha, MIP-2, and IP-10 gene expression and liver inflammation after the administration of AdL.PB* or AdL.F*PB*. Fluorescence microscopy of AdLuc- and AdL.PB*-transduced liver at 1 hr revealed localization of Ad vectors to liver sinusoids in Kupffer cell-depleted mice. AdL.PB* induced less E-selectin and VCAM-1 gene expression in liver, confirming reduced endothelial activation in mice receiving RGD-deleted Ad vectors. In vitro studies of endothelial cells demonstrated reduced transduction and endothelial activation by AdL.PB* compared with AdLuc. These results demonstrate that adenovirus capsid RGD motifs are required for efficient transduction and endothelial cell activation. Altering vector tropism represents a feasible strategy to modulate the innate response to Ad vectors in nontargeted tissues.

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The influence of innate and pre‐existing immunity on adenovirus therapy

Zaiss

Machado²,

Herschman

2009

J of Cellular Biochemistry

126

106

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Recombinant adenovirus serotype 5 (Ad5) vectors have been studied extensively in preclinical gene therapy models and in a range of clinical trials. However, innate immune responses to adenovirus vectors limit effectiveness of Ad5 based therapies. Moreover, extensive pre-existing Ad5 immunity in human populations will likely limit the clinical utility of adenovirus vectors, unless methods to circumvent neutralizing antibodies that bind virus and block target cell transduction can be developed; Furthermore, memory T cell and humoral responses to Ad5 are associated with increased toxicity, raising safety concerns for therapeutic adenovirus vectors in immunized hosts. Most preclinical studies have been performed in naïve animals; although pre-existing immunity is among the greatest hurdles for adenovirus therapies, it is also one of the most neglected experimentally. Here we summarize findings using adenovirus vectors in naïve animals, in Ad-immunized animals and in clinical trials, and review strategies proposed to overcome innate immune responses and preexisting immunity. Keywords ADENOVIRUS; INNATE IMMUNITY; NEUTRALIZING ANTIBODY; GENE THERAPY; VACCINATIONAdenovirus vectors have many promising traits for gene therapy; they efficiently transduce many proliferating and quiescent cell types, can "package" large amounts of foreign DNA, can be grown to high titers and are not germ line transmitted. However, adenovirus-mediated transgene expression is generally transient; ranging from weeks to a few months. Temporal limitation of transgene expression results mainly from immune responses that develop against both vector and transgene products.

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Anne K. Zaiss

The inflammasome recognizes cytosolic microbial and host DNA and triggers an innate immune response

Helper-Dependent Adenovirus Vectors Elicit Intact Innate but Attenuated Adaptive Host Immune Responses In Vivo

Complement Is an Essential Component of the Immune Response to Adeno-Associated Virus Vectors

Systematic study of constitutive cyclooxygenase-2 expression: Role of NF-κB and NFAT transcriptional pathways

Immune Responses to Adeno-Associated Virus Vectors

Activation of p38 and ERK Signaling during Adenovirus Vector Cell Entry Lead to Expression of the C-X-C Chemokine IP-10

The Role of Capsid–Endothelial Interactions in the Innate Immune Response to Adenovirus Vectors

The influence of innate and pre‐existing immunity on adenovirus therapy

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