Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans

Alexandra Schäfer; Lisa E. Gralinski; Sarah R. Leist; Brea K. Hampton; Michael A. Mooney; Kara L. Jensen; Rachel L. Graham; Sudhakar Agnihothram; Sophia Jeng; Steven Chamberlin; Timothy A. Bell; D. Trevor Scobey; Colton L. Linnertz; Laura A. VanBlargan; Larissa B. Thackray; Pablo Hock; Darla R. Miller; Ginger D. Shaw; Michael S. Diamond; Fernando Pardo Manuel de Villena; Shannon K. McWeeney; Mark T. Heise; Vineet D. Menachery; Martin T. Ferris; Ralph S. Baric

doi:10.1016/j.virusres.2024.199357

Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans

Alexandra Schäfer, Lisa E. Gralinski, Sarah R. Leist, Brea K. Hampton, Michael A. Mooney, Kara L. Jensen, Rachel L. Graham, Sudhakar Agnihothram, Sophia Jeng, Steven Chamberlin, Timothy A. Bell, D. Trevor Scobey, Colton L. Linnertz, Laura A. VanBlargan, Larissa B. Thackray, Pablo Hock, Darla R. Miller, Ginger D. Shaw, Michael S. Diamond, Fernando Pardo Manuel de VillenaShannon K. McWeeney, Mark T. Heise, Vineet D. Menachery, Martin T. Ferris, Ralph S. Baric

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

Abstract

Coronavirus (CoV) cause considerable morbidity and mortality in humans and other mammals, as evidenced by the emergence of Severe Acute Respiratory CoV (SARS-CoV) in 2003, Middle East Respiratory CoV (MERS-CoV) in 2012, and SARS-CoV-2 in 2019. Although poorly characterized, natural genetic variation in human and other mammals modulate virus pathogenesis, as reflected by the spectrum of clinical outcomes ranging from asymptomatic infections to lethal disease. Using multiple human epidemic and zoonotic Sarbecoviruses, coupled with murine Collaborative Cross genetic reference populations, we identify several dozen quantitative trait loci that regulate SARS-like group-2B CoV pathogenesis and replication. Under a Chr4 QTL, we deleted a candidate interferon stimulated gene, Trim14 which resulted in enhanced SARS-CoV titers and clinical disease, suggesting an antiviral role during infection. Importantly, about 60 % of the murine QTL encode susceptibility genes identified as priority candidates from human genome-wide association studies (GWAS) studies after SARS-CoV-2 infection, suggesting that similar selective forces have targeted analogous genes and pathways to regulate Sarbecovirus disease across diverse mammalian hosts. These studies provide an experimental platform in rodents to investigate the molecular-genetic mechanisms by which potential cross mammalian susceptibility loci and genes regulate type-specific and cross-SARS-like group 2B CoV replication, immunity, and pathogenesis in rodent models. Our study also provides a paradigm for identifying susceptibility loci for other highly heterogeneous and virulent viruses that sporadically emerge from zoonotic reservoirs to plague human and animal populations.

Original language	English (US)
Article number	199357
Journal	Virus Research
Volume	344
DOIs	https://doi.org/10.1016/j.virusres.2024.199357
State	Published - Jun 2024

Keywords

Host susceptibility loci
Pathogenesis
SARS-CoV
SARS-CoV-2
Zoonotic CoV

ASJC Scopus subject areas

Virology
Infectious Diseases
Cancer Research

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10.1016/j.virusres.2024.199357

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Schäfer, A., Gralinski, L. E., Leist, S. R., Hampton, B. K., Mooney, M. A., Jensen, K. L., Graham, R. L., Agnihothram, S., Jeng, S., Chamberlin, S., Bell, T. A., Scobey, D. T., Linnertz, C. L., VanBlargan, L. A., Thackray, L. B., Hock, P., Miller, D. R., Shaw, G. D., Diamond, M. S., ... Baric, R. S. (2024). Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans. Virus Research, 344, Article 199357. https://doi.org/10.1016/j.virusres.2024.199357

Schäfer, A, Gralinski, LE, Leist, SR, Hampton, BK, Mooney, MA, Jensen, KL, Graham, RL, Agnihothram, S, Jeng, S, Chamberlin, S, Bell, TA, Scobey, DT, Linnertz, CL, VanBlargan, LA, Thackray, LB, Hock, P, Miller, DR, Shaw, GD, Diamond, MS, de Villena, FPM, McWeeney, SK, Heise, MT, Menachery, VD, Ferris, MT & Baric, RS 2024, 'Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans', Virus Research, vol. 344, 199357. https://doi.org/10.1016/j.virusres.2024.199357

@article{fce54019199d40f1aff798550f13c2d4,

title = "Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans",

abstract = "Coronavirus (CoV) cause considerable morbidity and mortality in humans and other mammals, as evidenced by the emergence of Severe Acute Respiratory CoV (SARS-CoV) in 2003, Middle East Respiratory CoV (MERS-CoV) in 2012, and SARS-CoV-2 in 2019. Although poorly characterized, natural genetic variation in human and other mammals modulate virus pathogenesis, as reflected by the spectrum of clinical outcomes ranging from asymptomatic infections to lethal disease. Using multiple human epidemic and zoonotic Sarbecoviruses, coupled with murine Collaborative Cross genetic reference populations, we identify several dozen quantitative trait loci that regulate SARS-like group-2B CoV pathogenesis and replication. Under a Chr4 QTL, we deleted a candidate interferon stimulated gene, Trim14 which resulted in enhanced SARS-CoV titers and clinical disease, suggesting an antiviral role during infection. Importantly, about 60 % of the murine QTL encode susceptibility genes identified as priority candidates from human genome-wide association studies (GWAS) studies after SARS-CoV-2 infection, suggesting that similar selective forces have targeted analogous genes and pathways to regulate Sarbecovirus disease across diverse mammalian hosts. These studies provide an experimental platform in rodents to investigate the molecular-genetic mechanisms by which potential cross mammalian susceptibility loci and genes regulate type-specific and cross-SARS-like group 2B CoV replication, immunity, and pathogenesis in rodent models. Our study also provides a paradigm for identifying susceptibility loci for other highly heterogeneous and virulent viruses that sporadically emerge from zoonotic reservoirs to plague human and animal populations.",

keywords = "Host susceptibility loci, Pathogenesis, SARS-CoV, SARS-CoV-2, Zoonotic CoV",

author = "Alexandra Sch{\"a}fer and Gralinski, {Lisa E.} and Leist, {Sarah R.} and Hampton, {Brea K.} and Mooney, {Michael A.} and Jensen, {Kara L.} and Graham, {Rachel L.} and Sudhakar Agnihothram and Sophia Jeng and Steven Chamberlin and Bell, {Timothy A.} and Scobey, {D. Trevor} and Linnertz, {Colton L.} and VanBlargan, {Laura A.} and Thackray, {Larissa B.} and Pablo Hock and Miller, {Darla R.} and Shaw, {Ginger D.} and Diamond, {Michael S.} and {de Villena}, {Fernando Pardo Manuel} and McWeeney, {Shannon K.} and Heise, {Mark T.} and Menachery, {Vineet D.} and Ferris, {Martin T.} and Baric, {Ralph S.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = jun,

doi = "10.1016/j.virusres.2024.199357",

language = "English (US)",

volume = "344",

journal = "Virus Research",

issn = "0168-1702",

publisher = "Elsevier",

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TY - JOUR

T1 - Genetic loci regulate Sarbecovirus pathogenesis

T2 - A comparison across mice and humans

AU - Schäfer, Alexandra

AU - Gralinski, Lisa E.

AU - Leist, Sarah R.

AU - Hampton, Brea K.

AU - Mooney, Michael A.

AU - Jensen, Kara L.

AU - Graham, Rachel L.

AU - Agnihothram, Sudhakar

AU - Jeng, Sophia

AU - Chamberlin, Steven

AU - Bell, Timothy A.

AU - Scobey, D. Trevor

AU - Linnertz, Colton L.

AU - VanBlargan, Laura A.

AU - Thackray, Larissa B.

AU - Hock, Pablo

AU - Miller, Darla R.

AU - Shaw, Ginger D.

AU - Diamond, Michael S.

AU - de Villena, Fernando Pardo Manuel

AU - McWeeney, Shannon K.

AU - Heise, Mark T.

AU - Menachery, Vineet D.

AU - Ferris, Martin T.

AU - Baric, Ralph S.

PY - 2024/6

Y1 - 2024/6

N2 - Coronavirus (CoV) cause considerable morbidity and mortality in humans and other mammals, as evidenced by the emergence of Severe Acute Respiratory CoV (SARS-CoV) in 2003, Middle East Respiratory CoV (MERS-CoV) in 2012, and SARS-CoV-2 in 2019. Although poorly characterized, natural genetic variation in human and other mammals modulate virus pathogenesis, as reflected by the spectrum of clinical outcomes ranging from asymptomatic infections to lethal disease. Using multiple human epidemic and zoonotic Sarbecoviruses, coupled with murine Collaborative Cross genetic reference populations, we identify several dozen quantitative trait loci that regulate SARS-like group-2B CoV pathogenesis and replication. Under a Chr4 QTL, we deleted a candidate interferon stimulated gene, Trim14 which resulted in enhanced SARS-CoV titers and clinical disease, suggesting an antiviral role during infection. Importantly, about 60 % of the murine QTL encode susceptibility genes identified as priority candidates from human genome-wide association studies (GWAS) studies after SARS-CoV-2 infection, suggesting that similar selective forces have targeted analogous genes and pathways to regulate Sarbecovirus disease across diverse mammalian hosts. These studies provide an experimental platform in rodents to investigate the molecular-genetic mechanisms by which potential cross mammalian susceptibility loci and genes regulate type-specific and cross-SARS-like group 2B CoV replication, immunity, and pathogenesis in rodent models. Our study also provides a paradigm for identifying susceptibility loci for other highly heterogeneous and virulent viruses that sporadically emerge from zoonotic reservoirs to plague human and animal populations.

AB - Coronavirus (CoV) cause considerable morbidity and mortality in humans and other mammals, as evidenced by the emergence of Severe Acute Respiratory CoV (SARS-CoV) in 2003, Middle East Respiratory CoV (MERS-CoV) in 2012, and SARS-CoV-2 in 2019. Although poorly characterized, natural genetic variation in human and other mammals modulate virus pathogenesis, as reflected by the spectrum of clinical outcomes ranging from asymptomatic infections to lethal disease. Using multiple human epidemic and zoonotic Sarbecoviruses, coupled with murine Collaborative Cross genetic reference populations, we identify several dozen quantitative trait loci that regulate SARS-like group-2B CoV pathogenesis and replication. Under a Chr4 QTL, we deleted a candidate interferon stimulated gene, Trim14 which resulted in enhanced SARS-CoV titers and clinical disease, suggesting an antiviral role during infection. Importantly, about 60 % of the murine QTL encode susceptibility genes identified as priority candidates from human genome-wide association studies (GWAS) studies after SARS-CoV-2 infection, suggesting that similar selective forces have targeted analogous genes and pathways to regulate Sarbecovirus disease across diverse mammalian hosts. These studies provide an experimental platform in rodents to investigate the molecular-genetic mechanisms by which potential cross mammalian susceptibility loci and genes regulate type-specific and cross-SARS-like group 2B CoV replication, immunity, and pathogenesis in rodent models. Our study also provides a paradigm for identifying susceptibility loci for other highly heterogeneous and virulent viruses that sporadically emerge from zoonotic reservoirs to plague human and animal populations.

KW - Host susceptibility loci

KW - Pathogenesis

KW - SARS-CoV

KW - SARS-CoV-2

KW - Zoonotic CoV

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DO - 10.1016/j.virusres.2024.199357

M3 - Article

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AN - SCOPUS:85188705382

SN - 0168-1702

VL - 344

JO - Virus Research

JF - Virus Research

M1 - 199357

ER -

Genetic loci regulate Sarbecovirus pathogenesis: A comparison across mice and humans

Abstract

Keywords

ASJC Scopus subject areas

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