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Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors

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Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors. / Chen, S.; Fang, T.; Xiao, S. et al.
In: Microbial pathogenesis, Vol. 138, 103816, 31.01.2020.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Chen, S, Fang, T, Xiao, S, Lin, F, Cheng, X, Wang, S, Zhu, X, Chen, X, Zheng, M, Munir, M, Huang, M & Yu, F 2020, 'Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors', Microbial pathogenesis, vol. 138, 103816. https://doi.org/10.1016/j.micpath.2019.103816

APA

Chen, S., Fang, T., Xiao, S., Lin, F., Cheng, X., Wang, S., Zhu, X., Chen, X., Zheng, M., Munir, M., Huang, M., & Yu, F. (2020). Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors. Microbial pathogenesis, 138, Article 103816. https://doi.org/10.1016/j.micpath.2019.103816

Vancouver

Chen S, Fang T, Xiao S, Lin F, Cheng X, Wang S et al. Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors. Microbial pathogenesis. 2020 Jan 31;138:103816. Epub 2019 Oct 23. doi: 10.1016/j.micpath.2019.103816

Author

Chen, S. ; Fang, T. ; Xiao, S. et al. / Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors. In: Microbial pathogenesis. 2020 ; Vol. 138.

Bibtex

@article{b5d2c982b918403f97cee6312870171f,
title = "Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors",
abstract = "Duckling short beak and dwarfism syndrome virus (SBDSV), a newly identified goose parvovirus, causes devastating disease in domestic waterfowl and considerable economic losses to Chinese waterfowl industry. The molecular pathogenesis of SBDSV infection, nature and dynamics of host immune responses against SBDSV infection remained elusive. In this study, we systematically explored the relative mRNA expression profiles of major innate immune-related genes in SBDSV infected duck embryo fibroblasts. We found that SBDSV infection effectively activated host innate immune responses and resulted in significant up-regulation of IFN-beta and several vital IFN-stimulated genes (ISGs). These up-regulation responses were mainly attributed to viral genomic DNA and dsRNA replication intermediates. Importantly, the expression of cGAS was significantly induced, whereas the expression of other DNA receptors including DDX41, STING, ZBP1, LSM14A and LRRFIP1 have no significant change. Furthermore, SBDSV infection also activates the up-regulation of TLR3 and inhibited the expression of TLR2 and TLR4; however, no effect was observed on the expression of TLR1, TLR5, TLR7, TLR15 and TLR21. Intriguingly, SBDSV infection significantly up-regulated the expression of RNA sensors such as MDA5 and LGP2, and resulted in a delayed but significant up-regulation of RIG-I gene. Taken together, these data indicate that host multiple sensors including DNA sensor (cGAS) and RNA sensors (TLR3, MDA5 and LGP2) are involved in recognizing a variety of different pathogen associated molecular patterns (PAMPs) including viral genomic ssDNA and dsRNA replication intermediates, which trigger an effective antiviral innate immune response.",
keywords = "Duckling short beak and dwarfism syndrome virus (SBDSV), Goose parvovirus, Duck embryo fibroblastInnate immune response, Innate immune response, Pattern recognition receptors",
author = "S. Chen and T. Fang and S. Xiao and F. Lin and X. Cheng and S. Wang and X. Zhu and X. Chen and M. Zheng and M. Munir and M. Huang and F. Yu",
year = "2020",
month = jan,
day = "31",
doi = "10.1016/j.micpath.2019.103816",
language = "English",
volume = "138",
journal = "Microbial pathogenesis",
issn = "0882-4010",
publisher = "Academic Press Inc.",

}

RIS

TY - JOUR

T1 - Duckling short beak and dwarfism syndrome virus infection activates host innate immune response involving both DNA and RNA sensors

AU - Chen, S.

AU - Fang, T.

AU - Xiao, S.

AU - Lin, F.

AU - Cheng, X.

AU - Wang, S.

AU - Zhu, X.

AU - Chen, X.

AU - Zheng, M.

AU - Munir, M.

AU - Huang, M.

AU - Yu, F.

PY - 2020/1/31

Y1 - 2020/1/31

N2 - Duckling short beak and dwarfism syndrome virus (SBDSV), a newly identified goose parvovirus, causes devastating disease in domestic waterfowl and considerable economic losses to Chinese waterfowl industry. The molecular pathogenesis of SBDSV infection, nature and dynamics of host immune responses against SBDSV infection remained elusive. In this study, we systematically explored the relative mRNA expression profiles of major innate immune-related genes in SBDSV infected duck embryo fibroblasts. We found that SBDSV infection effectively activated host innate immune responses and resulted in significant up-regulation of IFN-beta and several vital IFN-stimulated genes (ISGs). These up-regulation responses were mainly attributed to viral genomic DNA and dsRNA replication intermediates. Importantly, the expression of cGAS was significantly induced, whereas the expression of other DNA receptors including DDX41, STING, ZBP1, LSM14A and LRRFIP1 have no significant change. Furthermore, SBDSV infection also activates the up-regulation of TLR3 and inhibited the expression of TLR2 and TLR4; however, no effect was observed on the expression of TLR1, TLR5, TLR7, TLR15 and TLR21. Intriguingly, SBDSV infection significantly up-regulated the expression of RNA sensors such as MDA5 and LGP2, and resulted in a delayed but significant up-regulation of RIG-I gene. Taken together, these data indicate that host multiple sensors including DNA sensor (cGAS) and RNA sensors (TLR3, MDA5 and LGP2) are involved in recognizing a variety of different pathogen associated molecular patterns (PAMPs) including viral genomic ssDNA and dsRNA replication intermediates, which trigger an effective antiviral innate immune response.

AB - Duckling short beak and dwarfism syndrome virus (SBDSV), a newly identified goose parvovirus, causes devastating disease in domestic waterfowl and considerable economic losses to Chinese waterfowl industry. The molecular pathogenesis of SBDSV infection, nature and dynamics of host immune responses against SBDSV infection remained elusive. In this study, we systematically explored the relative mRNA expression profiles of major innate immune-related genes in SBDSV infected duck embryo fibroblasts. We found that SBDSV infection effectively activated host innate immune responses and resulted in significant up-regulation of IFN-beta and several vital IFN-stimulated genes (ISGs). These up-regulation responses were mainly attributed to viral genomic DNA and dsRNA replication intermediates. Importantly, the expression of cGAS was significantly induced, whereas the expression of other DNA receptors including DDX41, STING, ZBP1, LSM14A and LRRFIP1 have no significant change. Furthermore, SBDSV infection also activates the up-regulation of TLR3 and inhibited the expression of TLR2 and TLR4; however, no effect was observed on the expression of TLR1, TLR5, TLR7, TLR15 and TLR21. Intriguingly, SBDSV infection significantly up-regulated the expression of RNA sensors such as MDA5 and LGP2, and resulted in a delayed but significant up-regulation of RIG-I gene. Taken together, these data indicate that host multiple sensors including DNA sensor (cGAS) and RNA sensors (TLR3, MDA5 and LGP2) are involved in recognizing a variety of different pathogen associated molecular patterns (PAMPs) including viral genomic ssDNA and dsRNA replication intermediates, which trigger an effective antiviral innate immune response.

KW - Duckling short beak and dwarfism syndrome virus (SBDSV)

KW - Goose parvovirus

KW - Duck embryo fibroblastInnate immune response

KW - Innate immune response

KW - Pattern recognition receptors

U2 - 10.1016/j.micpath.2019.103816

DO - 10.1016/j.micpath.2019.103816

M3 - Journal article

VL - 138

JO - Microbial pathogenesis

JF - Microbial pathogenesis

SN - 0882-4010

M1 - 103816

ER -