Conservation of Structure and Immune Antagonist Functions of Filoviral VP35 Homologs Present in Microbat Genomes

Megan R. Edwards; Hejun Liu; Reed S. Shabman; Garrett M. Ginell; Priya Luthra; Parmeshwaran Ramanan; Lisa J. Keefe; Bernd Köllner; Gaya K. Amarasinghe; Derek J. Taylor; Daisy W. Leung; Christopher F. Basler

doi:10.1016/j.celrep.2018.06.045

Conservation of Structure and Immune Antagonist Functions of Filoviral VP35 Homologs Present in Microbat Genomes

Megan R. Edwards
, Hejun Liu
, Reed S. Shabman
, Garrett M. Ginell
, Priya Luthra
, Parmeshwaran Ramanan
, Lisa J. Keefe
, Bernd Köllner
, Gaya K. Amarasinghe
, Derek J. Taylor
, Daisy W. Leung
, Christopher F. Basler

Biological Sciences

Georgia State University
Washington University St. Louis
Icahn School of Medicine at Mount Sinai
American Type Culture Collection
Cornell College
Hauptman-Woodward Medical Research Institute, Inc.
University of California at Santa Cruz
Friedrich-Loeffler-Institute

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

17 Scopus citations

Abstract

Non-retroviral integrated RNA viral sequences (NIRVs) potentially encoding ∼280 amino acid homologs to filovirus VP35 proteins are present across the Myotis genus of bats. These are estimated to have been maintained for ∼18 million years, indicating their co-option. To address the reasons for co-option, 16 Myotis VP35s were characterized in comparison to VP35s from the extant filoviruses Ebola virus and Marburg virus, in which VP35s play critical roles in immune evasion and RNA synthesis. The Myotis VP35s demonstrated a conserved suppression of innate immune signaling, albeit with reduced potency, in either human or Myotis cells. Their attenuation reflects a lack of dsRNA binding that in the filoviral VP35s correlates with potent suppression of interferon responses. Despite divergent function, evolution has preserved in Myotis the structure of the filoviral VP35s, indicating that this structure is critical for co-opted function, possibly as a regulator of innate immune signaling.

Original language	English
Pages (from-to)	861-872.e6
Journal	Cell Reports
Volume	24
Issue number	4
DOIs	https://doi.org/10.1016/j.celrep.2018.06.045
State	Published - Jul 24 2018

Keywords

Ebola virus
evolution
filovirus
Marburg virus
Myotis bats
non-retroviral integrated RNA viral sequence
VP35

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10.1016/j.celrep.2018.06.045

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Edwards, M. R., Liu, H., Shabman, R. S., Ginell, G. M., Luthra, P., Ramanan, P., Keefe, L. J., Köllner, B., Amarasinghe, G. K., Taylor, D. J., Leung, D. W., & Basler, C. F. (2018). Conservation of Structure and Immune Antagonist Functions of Filoviral VP35 Homologs Present in Microbat Genomes. Cell Reports, 24(4), 861-872.e6. https://doi.org/10.1016/j.celrep.2018.06.045

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title = "Conservation of Structure and Immune Antagonist Functions of Filoviral VP35 Homologs Present in Microbat Genomes",

abstract = "Non-retroviral integrated RNA viral sequences (NIRVs) potentially encoding ∼280 amino acid homologs to filovirus VP35 proteins are present across the Myotis genus of bats. These are estimated to have been maintained for ∼18 million years, indicating their co-option. To address the reasons for co-option, 16 Myotis VP35s were characterized in comparison to VP35s from the extant filoviruses Ebola virus and Marburg virus, in which VP35s play critical roles in immune evasion and RNA synthesis. The Myotis VP35s demonstrated a conserved suppression of innate immune signaling, albeit with reduced potency, in either human or Myotis cells. Their attenuation reflects a lack of dsRNA binding that in the filoviral VP35s correlates with potent suppression of interferon responses. Despite divergent function, evolution has preserved in Myotis the structure of the filoviral VP35s, indicating that this structure is critical for co-opted function, possibly as a regulator of innate immune signaling.",

keywords = "Ebola virus, evolution, filovirus, Marburg virus, Myotis bats, non-retroviral integrated RNA viral sequence, VP35",

author = "Edwards, \{Megan R.\} and Hejun Liu and Shabman, \{Reed S.\} and Ginell, \{Garrett M.\} and Priya Luthra and Parmeshwaran Ramanan and Keefe, \{Lisa J.\} and Bernd K{\"o}llner and Amarasinghe, \{Gaya K.\} and Taylor, \{Derek J.\} and Leung, \{Daisy W.\} and Basler, \{Christopher F.\}",

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doi = "10.1016/j.celrep.2018.06.045",

language = "English",

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AU - Shabman, Reed S.

AU - Ginell, Garrett M.

AU - Luthra, Priya

AU - Ramanan, Parmeshwaran

AU - Keefe, Lisa J.

AU - Köllner, Bernd

AU - Amarasinghe, Gaya K.

AU - Taylor, Derek J.

AU - Leung, Daisy W.

AU - Basler, Christopher F.

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N2 - Non-retroviral integrated RNA viral sequences (NIRVs) potentially encoding ∼280 amino acid homologs to filovirus VP35 proteins are present across the Myotis genus of bats. These are estimated to have been maintained for ∼18 million years, indicating their co-option. To address the reasons for co-option, 16 Myotis VP35s were characterized in comparison to VP35s from the extant filoviruses Ebola virus and Marburg virus, in which VP35s play critical roles in immune evasion and RNA synthesis. The Myotis VP35s demonstrated a conserved suppression of innate immune signaling, albeit with reduced potency, in either human or Myotis cells. Their attenuation reflects a lack of dsRNA binding that in the filoviral VP35s correlates with potent suppression of interferon responses. Despite divergent function, evolution has preserved in Myotis the structure of the filoviral VP35s, indicating that this structure is critical for co-opted function, possibly as a regulator of innate immune signaling.

AB - Non-retroviral integrated RNA viral sequences (NIRVs) potentially encoding ∼280 amino acid homologs to filovirus VP35 proteins are present across the Myotis genus of bats. These are estimated to have been maintained for ∼18 million years, indicating their co-option. To address the reasons for co-option, 16 Myotis VP35s were characterized in comparison to VP35s from the extant filoviruses Ebola virus and Marburg virus, in which VP35s play critical roles in immune evasion and RNA synthesis. The Myotis VP35s demonstrated a conserved suppression of innate immune signaling, albeit with reduced potency, in either human or Myotis cells. Their attenuation reflects a lack of dsRNA binding that in the filoviral VP35s correlates with potent suppression of interferon responses. Despite divergent function, evolution has preserved in Myotis the structure of the filoviral VP35s, indicating that this structure is critical for co-opted function, possibly as a regulator of innate immune signaling.

KW - Ebola virus

KW - evolution

KW - filovirus

KW - Marburg virus

KW - Myotis bats

KW - non-retroviral integrated RNA viral sequence

KW - VP35

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DO - 10.1016/j.celrep.2018.06.045

M3 - Article

C2 - 30044983

AN - SCOPUS:85049898177

SN - 2639-1856

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SP - 861-872.e6

JO - Cell Reports

JF - Cell Reports

IS - 4

ER -

Conservation of Structure and Immune Antagonist Functions of Filoviral VP35 Homologs Present in Microbat Genomes

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