A West Nile virus NS4B-P38G mutant strain induces adaptive immunity via TLR7-MyD88-dependent and independent signaling pathways

Guorui Xie; Thomas Welte; Jia Wang; Melissa C. Whiteman; Jason A. Wicker; Vandana Saxena; Yingzi Cong; Alan D.T. Barrett; Tian Wang

doi:10.1016/j.vaccine.2013.06.093

A West Nile virus NS4B-P38G mutant strain induces adaptive immunity via TLR7-MyD88-dependent and independent signaling pathways

Guorui Xie, Thomas Welte, Jia Wang, Melissa C. Whiteman, Jason A. Wicker, Vandana Saxena, Yingzi Cong, Alan D.T. Barrett, Tian Wang

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Prior work shows that an attenuated West Nile virus (WNV), the nonstructural (NS)4B-P38G mutant infection in mice induced strong immune responses and protected host from subsequent lethal wild-type WNV infection. Here, we investigated NS4B-P38G mutant infection in myeloid differentiation factor 88-deficient (MyD88^-/-) and Toll-like receptor 7-deficient (TLR7^-/-) mice and found they had enhanced susceptibility compared to wild-type mice. Both groups had lower WNV-specific IgM response and reduced effector T cell functions. Dendritic cells (DCs) also exhibited a reduced maturation and impaired antigen-presenting functions compared to wild-type DCs. Moreover, infection with NS4B-P38G mutant in TLR7^-/- and MyD88^-/- mice provided full and partial protection respectively from subsequent challenge with lethal wild-type WNV. There were reduced T cell responses in MyD88^-/- and interleukin-1 receptor deficient (IL-1R^-/-) mice during secondary challenge with wild-type WNV. In contrast, TLR7^-/- mice displayed normal T cell functions. Collectively, these results suggest that TLR7-dependent MyD88 signaling is required for T cell priming during NS4B-P38G mutant infection, whereas the TLR7-independent MyD88 signaling pathways are involved in memory T cell development, which may contribute to host protection during secondary challenge with wild-type WNV.

Original language	English (US)
Pages (from-to)	4143-4151
Number of pages	9
Journal	Vaccine
Volume	31
Issue number	38
DOIs	https://doi.org/10.1016/j.vaccine.2013.06.093
State	Published - Aug 28 2013
Externally published	Yes

Keywords

Immune response
NS4B protein
T cell
West Nile virus

ASJC Scopus subject areas

Molecular Medicine
General Immunology and Microbiology
General Veterinary
Public Health, Environmental and Occupational Health
Infectious Diseases

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10.1016/j.vaccine.2013.06.093

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@article{2753fb0551bc45a58fdff418161b40db,

title = "A West Nile virus NS4B-P38G mutant strain induces adaptive immunity via TLR7-MyD88-dependent and independent signaling pathways",

abstract = "Prior work shows that an attenuated West Nile virus (WNV), the nonstructural (NS)4B-P38G mutant infection in mice induced strong immune responses and protected host from subsequent lethal wild-type WNV infection. Here, we investigated NS4B-P38G mutant infection in myeloid differentiation factor 88-deficient (MyD88-/-) and Toll-like receptor 7-deficient (TLR7-/-) mice and found they had enhanced susceptibility compared to wild-type mice. Both groups had lower WNV-specific IgM response and reduced effector T cell functions. Dendritic cells (DCs) also exhibited a reduced maturation and impaired antigen-presenting functions compared to wild-type DCs. Moreover, infection with NS4B-P38G mutant in TLR7-/- and MyD88-/- mice provided full and partial protection respectively from subsequent challenge with lethal wild-type WNV. There were reduced T cell responses in MyD88-/- and interleukin-1 receptor deficient (IL-1R-/-) mice during secondary challenge with wild-type WNV. In contrast, TLR7-/- mice displayed normal T cell functions. Collectively, these results suggest that TLR7-dependent MyD88 signaling is required for T cell priming during NS4B-P38G mutant infection, whereas the TLR7-independent MyD88 signaling pathways are involved in memory T cell development, which may contribute to host protection during secondary challenge with wild-type WNV.",

keywords = "Immune response, NS4B protein, T cell, West Nile virus",

author = "Guorui Xie and Thomas Welte and Jia Wang and Whiteman, {Melissa C.} and Wicker, {Jason A.} and Vandana Saxena and Yingzi Cong and Barrett, {Alan D.T.} and Tian Wang",

note = "Funding Information: This work was supported by a NIH grant to T.W. ( AI072060 ) and start-up funds to T.W. from The University of Texas Medical Branch and the Clayton Foundation for Research (ADTB). G. Xie was partially supported by a James W. McLaughlin Predoctoral Fellowship . We thank Regeneron Inc., Dr. Richard Flavell (Howard Hughes Medical Institute, Yale University School of Medicine, New Haven) and Dr. Shizuo Akira (Osaka University, Japan) for providing the TLR7 −/− and MyD88 −/− mice. We also thank Ye Wang for technical help and Ms. Mardelle Susman for assisting in manuscript preparation.",

year = "2013",

month = aug,

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doi = "10.1016/j.vaccine.2013.06.093",

language = "English (US)",

volume = "31",

pages = "4143--4151",

journal = "Vaccine",

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T1 - A West Nile virus NS4B-P38G mutant strain induces adaptive immunity via TLR7-MyD88-dependent and independent signaling pathways

AU - Xie, Guorui

AU - Welte, Thomas

AU - Wang, Jia

AU - Whiteman, Melissa C.

AU - Wicker, Jason A.

AU - Saxena, Vandana

AU - Cong, Yingzi

AU - Barrett, Alan D.T.

AU - Wang, Tian

N1 - Funding Information: This work was supported by a NIH grant to T.W. ( AI072060 ) and start-up funds to T.W. from The University of Texas Medical Branch and the Clayton Foundation for Research (ADTB). G. Xie was partially supported by a James W. McLaughlin Predoctoral Fellowship . We thank Regeneron Inc., Dr. Richard Flavell (Howard Hughes Medical Institute, Yale University School of Medicine, New Haven) and Dr. Shizuo Akira (Osaka University, Japan) for providing the TLR7 −/− and MyD88 −/− mice. We also thank Ye Wang for technical help and Ms. Mardelle Susman for assisting in manuscript preparation.

PY - 2013/8/28

Y1 - 2013/8/28

N2 - Prior work shows that an attenuated West Nile virus (WNV), the nonstructural (NS)4B-P38G mutant infection in mice induced strong immune responses and protected host from subsequent lethal wild-type WNV infection. Here, we investigated NS4B-P38G mutant infection in myeloid differentiation factor 88-deficient (MyD88-/-) and Toll-like receptor 7-deficient (TLR7-/-) mice and found they had enhanced susceptibility compared to wild-type mice. Both groups had lower WNV-specific IgM response and reduced effector T cell functions. Dendritic cells (DCs) also exhibited a reduced maturation and impaired antigen-presenting functions compared to wild-type DCs. Moreover, infection with NS4B-P38G mutant in TLR7-/- and MyD88-/- mice provided full and partial protection respectively from subsequent challenge with lethal wild-type WNV. There were reduced T cell responses in MyD88-/- and interleukin-1 receptor deficient (IL-1R-/-) mice during secondary challenge with wild-type WNV. In contrast, TLR7-/- mice displayed normal T cell functions. Collectively, these results suggest that TLR7-dependent MyD88 signaling is required for T cell priming during NS4B-P38G mutant infection, whereas the TLR7-independent MyD88 signaling pathways are involved in memory T cell development, which may contribute to host protection during secondary challenge with wild-type WNV.

AB - Prior work shows that an attenuated West Nile virus (WNV), the nonstructural (NS)4B-P38G mutant infection in mice induced strong immune responses and protected host from subsequent lethal wild-type WNV infection. Here, we investigated NS4B-P38G mutant infection in myeloid differentiation factor 88-deficient (MyD88-/-) and Toll-like receptor 7-deficient (TLR7-/-) mice and found they had enhanced susceptibility compared to wild-type mice. Both groups had lower WNV-specific IgM response and reduced effector T cell functions. Dendritic cells (DCs) also exhibited a reduced maturation and impaired antigen-presenting functions compared to wild-type DCs. Moreover, infection with NS4B-P38G mutant in TLR7-/- and MyD88-/- mice provided full and partial protection respectively from subsequent challenge with lethal wild-type WNV. There were reduced T cell responses in MyD88-/- and interleukin-1 receptor deficient (IL-1R-/-) mice during secondary challenge with wild-type WNV. In contrast, TLR7-/- mice displayed normal T cell functions. Collectively, these results suggest that TLR7-dependent MyD88 signaling is required for T cell priming during NS4B-P38G mutant infection, whereas the TLR7-independent MyD88 signaling pathways are involved in memory T cell development, which may contribute to host protection during secondary challenge with wild-type WNV.

KW - Immune response

KW - NS4B protein

KW - T cell

KW - West Nile virus

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ER -

A West Nile virus NS4B-P38G mutant strain induces adaptive immunity via TLR7-MyD88-dependent and independent signaling pathways

Abstract

Keywords

ASJC Scopus subject areas

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