Zebrafish: Modeling for Herpes Simplex Virus Infections

Antoine, Thessicar E.; Jones, Kevin S.; Dale, Rodney M.; Shukla, Deepak; Tiwari, Vaibhav

doi:10.1089/zeb.2013.0920

Cited by 36 publications

(25 citation statements)

References 61 publications

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“…3E and F). Taken together, our current findings suggest that the ZF 3-OST-6 isoform, but not 3-OST-1, -5, and -7, mediates HSV-1 entry and cell fusion in a manner similar to that of the previously reported ZF 3-OST isoforms (3-OST-2, -3, and -4) (14)(15)(16)(17). Therefore, based on the ZF 3-OST gene characterizations for HSV-1 entry, we categorize them into two groups, in which group I (3-OST-2, -3, -4, and -6) allows HSV entry, while group II (3-OST-1, -5, and -7) does not generate a gD receptor; hence, cells expressing the latter 3-OST isoforms are not susceptible to HSV-1 entry (Fig.…”

supporting

confidence: 85%

“…These ZF enzyme isoforms are differentially expressed in a tissue-specific manner, suggesting the possibility of creating a tool to study HSV tissuespecific tropism, whose study is hampered by the lack of available convenient tools. Our previous preliminary studies suggested that ZF 3-OST may mediate HSV entry (15). In this study, we investigated the ability of ZF 3-OST-1, -5, -6, and -7 isoforms, comparatively to their human analogue, to facilitate HSV-1 entry and cell-cell fusion.…”

Section: H Erpes Simplex Virus 1 (Hsv-1) Entry Into the Host Cells Rementioning

confidence: 99%

“…Recent studies of zebrafish (ZF) provided a functional analysis of 3-OST-generated HS (11)(12)(13)(14)(15). Out of the characterized eight 3-OST family members in ZF, seven genes show homology to known 3-OST genes in mice and humans (11).…”

Section: H Erpes Simplex Virus 1 (Hsv-1) Entry Into the Host Cells Rementioning

confidence: 99%

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Comprehensive Analysis of Herpes Simplex Virus 1 (HSV-1) Entry Mediated by Zebrafish 3- O -Sulfotransferase Isoforms: Implications for the Development of a Zebrafish Model of HSV-1 Infection

Yakoub

Rawal

Maus

et al. 2014

J Virol

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Here, we performed a comprehensive analysis of the role of ZF 3-OST isoforms (3-OST-1, 3-OST-5, 3-OST-6, and 3-OST-7) in HSV-1 entry. We found that a group of 3-OST gene family isoforms (3-OST-2, -3, -4, and -6) with conserved catalytic and substrate-binding residues of the enzyme mediates HSV-1 entry and spread, while the other group (3-OST-1, -5, and -7) lacks these properties. These results demonstrate that HSV-1 entry can be recapitulated by certain ZF 3-OST enzymes, a significant step toward the establishment of a ZF model of HSV-1 infection and tissue-specific tropism. Herpes simplex virus 1 (HSV-1) entry into the host cells requires interactions between viral envelope glycoprotein D (gD) and host cell receptors (1). An important gD receptor is 3-O-sulfated heparan sulfate (3-OS HS) (2, 3). Synthesis and modifications of HS is a multistep process (4-8), of which the last step involves O-sulfation at different positions of the molecule, catalyzed by various sulfotransferases (4). 3-O-Sulfotransferases (3-OST-1, -2, -3A, -3B, -4, -5, and -6 isoforms; also called Hs3st1, -2, -3A, -3B, -4, -5, and -6, respectively) catalyze sulfation at the C-3 of the glucosamine units of HS, generating specific proteinbinding sites for HSV-1 gD (2, 3, 9, 10).Recent studies of zebrafish (ZF) provided a functional analysis of 3-OST-generated HS (11-15). Out of the characterized eight 3-OST family members in ZF, seven genes show homology to known 3-OST genes in mice and humans (11). These ZF enzyme isoforms are differentially expressed in a tissue-specific manner, suggesting the possibility of creating a tool to study HSV tissuespecific tropism, whose study is hampered by the lack of available convenient tools. Our previous preliminary studies suggested that ZF 3-OST may mediate HSV entry (15). In this study, we investigated the ability of ZF 3-OST-1, -5, -6, and -7 isoforms, comparatively to their human analogue, to facilitate HSV-1 entry and cell-cell fusion. Our previous studies have shown that ZF-encoded 3-OST isoforms (3-OST-2, -3, and -4) allow HSV-1 entry into host cells (14,16,17). Here, we provide a comprehensive analysis of the differential abilities of the remaining ZF 3-OST isoforms to mediate HSV-1 entry and propose a unique model for future studies of HSV-1 tropism using ZF as a convenient tool.Analysis and cloning of zebrafish-encoded 3-OST enzymes. To characterize ZF 3-OST isoforms relative to their human counterparts, we first performed an amino acid sequence alignment of the ZF-encoded 3-OST enzymes to the previously characterized human 3-OST-3A and 3-OST-3B isoforms (2, 11). Interestingly, we found that the amino acid sequences of the ZF 3-OST enzymes show various degrees of homology to the human 3-OST-3 isoforms (Fig. 1). Comparing the conservation of the catalytic residues of the enzymes characterized for human 3-OST-3, we found that ZF enzymes 3-OST-2, -3, -4, and -6 show 100% conservation of the catalytic residues; these were designated group I members ( Fig. 1A and B). The other isoforms (3-OST-1, -5, and...

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supporting

confidence: 85%

Section: H Erpes Simplex Virus 1 (Hsv-1) Entry Into the Host Cells Rementioning

confidence: 99%

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Comprehensive Analysis of Herpes Simplex Virus 1 (HSV-1) Entry Mediated by Zebrafish 3- O -Sulfotransferase Isoforms: Implications for the Development of a Zebrafish Model of HSV-1 Infection

Yakoub

Rawal

Maus

et al. 2014

J Virol

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“…The first reported human pathogens that could infect and cause disease in zebrafish were bacteria (reviewed in Trede et al, 2004; van der Sar et al, 2004; Phelps and Neely, 2005; Sullivan and Kim, 2008; Meijer and Spaink, 2011; Milligan-Myhre et al, 2011; Novoa and Figueras, 2011). There are now reports of zebrafish models of human fungal (Chao et al, 2010; Brothers et al, 2011; Brothers et al, 2013; Chen et al, 2013; Gratacap et al, 2013; Kuo et al, 2013; Y.-C. Wang et al, 2013) and human viral pathogen infections (Burgos et al, 2008; Ding et al, 2011; Antoine et al, 2013; Palha et al, 2013; K. A. Gabor and C. H. Kim, personal communication). We will describe the human viral illnesses for which there are currently zebrafish infection models and then discuss the findings and insights obtained thus far from these zebrafish models of human viral infections.…”

Section: Zebrafish Models Of Human Viral Illnessesmentioning

confidence: 99%

Studying the immune response to human viral infections using zebrafish

Goody

Sullivan

Kim

2014

Developmental & Comparative Immunology

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Humans and viruses have a long co-evolutionary history. Viral illnesses have and will continue to shape human history: from smallpox, to influenza, to HIV, and beyond. Animal models of human viral illnesses are needed in order to generate safe and effective antiviral medicines, adjuvant therapies, and vaccines. These animal models must support the replication of human viruses, recapitulate aspects of human viral illnesses, and respond with conserved immune signaling cascades. The zebrafish is perhaps the simplest, most commonly used laboratory model organism in which innate and/or adaptive immunity can be studied. Herein, we will discuss the current zebrafish models of human viral illnesses and the insights they have provided. We will highlight advantages of early life stage zebrafish and the importance of innate immunity in human viral illnesses. We will also discuss viral characteristics to consider before infecting zebrafish with human viruses as well as predict other human viruses that may be able to infect zebrafish.

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“…HSV-1 infection has been extensively employed to elucidate STING signaling in mice (25,37). Some preliminary studies suggested that HSV-1 could potentially infect zebrafish and persist in adult zebrafish brain (13,38). It remains unknown whether HSV-1 infection could be adapted to explore cytosolic DNA signaling in zebrafish.…”

mentioning

confidence: 99%

Conservation of the STING-Mediated Cytosolic DNA Sensing Pathway in Zebrafish

Zhou

Peng

et al. 2015

J Virol

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Zebrafish (Danio rerio) is a unique potential model animal for dissecting innate immune signaling. Here we demonstrate that herpes simplex virus 1 (HSV-1) could infect zebrafish at its different developmental stages and trigger the expression of type I interferons (IFNs) as well as interferon-stimulated genes (ISGs) in zebrafish larvae. Silencing of zSTING, but not zMAVS, markedly attenuates the DNA virus-induced antiviral responses. Notably, a conserved serine residue (S373) is essential for the action of zSTING. Unexpectedly, zebrafish cyclic GMP-AMP synthase (cGAS) is dispensable for the STING signaling, whereas zDHX9 and zDDX41 are potential sensors for HSV-1 infection in vivo. Taken together, this proof-of-concept study establishes the zebrafish larva as a feasible model for investigating the cytosolic DNA sensing mechanism, shedding light on the conservation of the STING antiviral signaling pathway. IMPORTANCEThe zebrafish larva provides technical advantages for understanding host-pathogen interactions. In this study, we established the zebrafish larva as a useful model for studying HSV-1 infection. HSV-1 infection triggers strong type I interferon production, which depends on STING expression. In addition, STING-mediated antiviral signaling is conserved in zebrafish. Interestingly, zDHX9 and zDDX41 are indispensable for detecting HSV-1, while cGAS is dispensable. This proof-of-concept study indicates that the zebrafish represents an amenable model for the investigation of cytosolic DNA sensing mechanisms.

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Zebrafish: Modeling for Herpes Simplex Virus Infections

Cited by 36 publications

References 61 publications

Comprehensive Analysis of Herpes Simplex Virus 1 (HSV-1) Entry Mediated by Zebrafish 3- O -Sulfotransferase Isoforms: Implications for the Development of a Zebrafish Model of HSV-1 Infection

Comprehensive Analysis of Herpes Simplex Virus 1 (HSV-1) Entry Mediated by Zebrafish 3- O -Sulfotransferase Isoforms: Implications for the Development of a Zebrafish Model of HSV-1 Infection

Studying the immune response to human viral infections using zebrafish

Conservation of the STING-Mediated Cytosolic DNA Sensing Pathway in Zebrafish

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