A strategy to estimate unknown viral diversity in mammals

Simon J. Anthony; Jonathan H. Epstein; Kris A. Murray; Isamara Navarrete-Macias; Carlos M. Zambrana-Torrelio; Alexander Solovyov; Rafael Ojeda-Flores; Nicole C. Arrigo; Ariful Islam; Shahneaz Ali Khan; Parviez Hosseini; Tiffany L. Bogich; Kevin J. Olival; Maria D. Sanchez-Leon; William B. Karesh; Tracey Goldstein; Stephen P. Luby; Stephen S. Morse; Jonna A.K. Mazet; Peter Daszak; W. Ian Lipkin

doi:10.1128/mBio.00598-13

A strategy to estimate unknown viral diversity in mammals

Simon J. Anthony, Jonathan H. Epstein, Kris A. Murray, Isamara Navarrete-Macias, Carlos M. Zambrana-Torrelio, Alexander Solovyov, Rafael Ojeda-Flores, Nicole C. Arrigo, Ariful Islam, Shahneaz Ali Khan, Parviez Hosseini, Tiffany L. Bogich, Kevin J. Olival, Maria D. Sanchez-Leon, William B. Karesh, Tracey Goldstein, Stephen P. Luby, Stephen S. Morse, Jonna A.K. Mazet, Peter DaszakW. Ian Lipkin

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

305 Scopus citations

Abstract

The majority of emerging zoonoses originate in wildlife, and many are caused by viruses. However, there are no rigorous estimates of total viral diversity (here termed "virodiversity") for any wildlife species, despite the utility of this to future surveillance and control of emerging zoonoses. In this case study, we repeatedly sampled a mammalian wildlife host known to harbor emerging zoonotic pathogens (the Indian Flying Fox, Pteropus giganteus) and used PCR with degenerate viral family-level primers to discover and analyze the occurrence patterns of 55 viruses from nine viral families. We then adapted statistical techniques used to estimate biodiversity in vertebrates and plants and estimated the total viral richness of these nine families in P. giganteus to be 58 viruses. Our analyses demonstrate proof-of-concept of a strategy for estimating viral richness and provide the first statistically supported estimate of the number of undiscovered viruses in a mammalian host. We used a simple extrapolation to estimate that there are a minimum of 320,000 mammalian viruses awaiting discovery within these nine families, assuming all species harbor a similar number of viruses, with minimal turnover between host species. We estimate the cost of discovering these viruses to be ~$6.3 billion (or ~$1.4 billion for 85% of the total diversity), which if annualized over a 10-year study time frame would represent a small fraction of the cost of many pandemic zoonoses.

Original language	English
Article number	e00598-13
Journal	mBio
Volume	4
Issue number	5
DOIs	https://doi.org/10.1128/mBio.00598-13
State	Published - 3 Sep 2013
Externally published	Yes

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Anthony, S. J., Epstein, J. H., Murray, K. A., Navarrete-Macias, I., Zambrana-Torrelio, C. M., Solovyov, A., Ojeda-Flores, R., Arrigo, N. C., Islam, A., Khan, S. A., Hosseini, P., Bogich, T. L., Olival, K. J., Sanchez-Leon, M. D., Karesh, W. B., Goldstein, T., Luby, S. P., Morse, S. S., Mazet, J. A. K., ... Lipkin, W. I. (2013). A strategy to estimate unknown viral diversity in mammals. mBio, 4(5), Article e00598-13. https://doi.org/10.1128/mBio.00598-13

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title = "A strategy to estimate unknown viral diversity in mammals",

abstract = "The majority of emerging zoonoses originate in wildlife, and many are caused by viruses. However, there are no rigorous estimates of total viral diversity (here termed {"}virodiversity{"}) for any wildlife species, despite the utility of this to future surveillance and control of emerging zoonoses. In this case study, we repeatedly sampled a mammalian wildlife host known to harbor emerging zoonotic pathogens (the Indian Flying Fox, Pteropus giganteus) and used PCR with degenerate viral family-level primers to discover and analyze the occurrence patterns of 55 viruses from nine viral families. We then adapted statistical techniques used to estimate biodiversity in vertebrates and plants and estimated the total viral richness of these nine families in P. giganteus to be 58 viruses. Our analyses demonstrate proof-of-concept of a strategy for estimating viral richness and provide the first statistically supported estimate of the number of undiscovered viruses in a mammalian host. We used a simple extrapolation to estimate that there are a minimum of 320,000 mammalian viruses awaiting discovery within these nine families, assuming all species harbor a similar number of viruses, with minimal turnover between host species. We estimate the cost of discovering these viruses to be ~$6.3 billion (or ~$1.4 billion for 85% of the total diversity), which if annualized over a 10-year study time frame would represent a small fraction of the cost of many pandemic zoonoses.",

author = "Anthony, {Simon J.} and Epstein, {Jonathan H.} and Murray, {Kris A.} and Isamara Navarrete-Macias and Zambrana-Torrelio, {Carlos M.} and Alexander Solovyov and Rafael Ojeda-Flores and Arrigo, {Nicole C.} and Ariful Islam and Khan, {Shahneaz Ali} and Parviez Hosseini and Bogich, {Tiffany L.} and Olival, {Kevin J.} and Sanchez-Leon, {Maria D.} and Karesh, {William B.} and Tracey Goldstein and Luby, {Stephen P.} and Morse, {Stephen S.} and Mazet, {Jonna A.K.} and Peter Daszak and Lipkin, {W. Ian}",

year = "2013",

month = sep,

day = "3",

doi = "10.1128/mBio.00598-13",

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Anthony, SJ, Epstein, JH, Murray, KA, Navarrete-Macias, I, Zambrana-Torrelio, CM, Solovyov, A, Ojeda-Flores, R, Arrigo, NC, Islam, A, Khan, SA, Hosseini, P, Bogich, TL, Olival, KJ, Sanchez-Leon, MD, Karesh, WB, Goldstein, T, Luby, SP, Morse, SS, Mazet, JAK, Daszak, P & Lipkin, WI 2013, 'A strategy to estimate unknown viral diversity in mammals', mBio, vol. 4, no. 5, e00598-13. https://doi.org/10.1128/mBio.00598-13

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T1 - A strategy to estimate unknown viral diversity in mammals

AU - Anthony, Simon J.

AU - Epstein, Jonathan H.

AU - Murray, Kris A.

AU - Navarrete-Macias, Isamara

AU - Zambrana-Torrelio, Carlos M.

AU - Solovyov, Alexander

AU - Ojeda-Flores, Rafael

AU - Arrigo, Nicole C.

AU - Islam, Ariful

AU - Khan, Shahneaz Ali

AU - Hosseini, Parviez

AU - Bogich, Tiffany L.

AU - Olival, Kevin J.

AU - Sanchez-Leon, Maria D.

AU - Karesh, William B.

AU - Goldstein, Tracey

AU - Luby, Stephen P.

AU - Morse, Stephen S.

AU - Mazet, Jonna A.K.

AU - Daszak, Peter

AU - Lipkin, W. Ian

PY - 2013/9/3

Y1 - 2013/9/3

N2 - The majority of emerging zoonoses originate in wildlife, and many are caused by viruses. However, there are no rigorous estimates of total viral diversity (here termed "virodiversity") for any wildlife species, despite the utility of this to future surveillance and control of emerging zoonoses. In this case study, we repeatedly sampled a mammalian wildlife host known to harbor emerging zoonotic pathogens (the Indian Flying Fox, Pteropus giganteus) and used PCR with degenerate viral family-level primers to discover and analyze the occurrence patterns of 55 viruses from nine viral families. We then adapted statistical techniques used to estimate biodiversity in vertebrates and plants and estimated the total viral richness of these nine families in P. giganteus to be 58 viruses. Our analyses demonstrate proof-of-concept of a strategy for estimating viral richness and provide the first statistically supported estimate of the number of undiscovered viruses in a mammalian host. We used a simple extrapolation to estimate that there are a minimum of 320,000 mammalian viruses awaiting discovery within these nine families, assuming all species harbor a similar number of viruses, with minimal turnover between host species. We estimate the cost of discovering these viruses to be ~$6.3 billion (or ~$1.4 billion for 85% of the total diversity), which if annualized over a 10-year study time frame would represent a small fraction of the cost of many pandemic zoonoses.

AB - The majority of emerging zoonoses originate in wildlife, and many are caused by viruses. However, there are no rigorous estimates of total viral diversity (here termed "virodiversity") for any wildlife species, despite the utility of this to future surveillance and control of emerging zoonoses. In this case study, we repeatedly sampled a mammalian wildlife host known to harbor emerging zoonotic pathogens (the Indian Flying Fox, Pteropus giganteus) and used PCR with degenerate viral family-level primers to discover and analyze the occurrence patterns of 55 viruses from nine viral families. We then adapted statistical techniques used to estimate biodiversity in vertebrates and plants and estimated the total viral richness of these nine families in P. giganteus to be 58 viruses. Our analyses demonstrate proof-of-concept of a strategy for estimating viral richness and provide the first statistically supported estimate of the number of undiscovered viruses in a mammalian host. We used a simple extrapolation to estimate that there are a minimum of 320,000 mammalian viruses awaiting discovery within these nine families, assuming all species harbor a similar number of viruses, with minimal turnover between host species. We estimate the cost of discovering these viruses to be ~$6.3 billion (or ~$1.4 billion for 85% of the total diversity), which if annualized over a 10-year study time frame would represent a small fraction of the cost of many pandemic zoonoses.

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JO - mBio

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A strategy to estimate unknown viral diversity in mammals

Abstract

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