Relative rate and location of intra-host HIV evolution to evade cellular immunity are predictable

Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune control of infection. Here, we combine methods from evolutionary dynamics and statistical physics to simulate in vivo HIV sequence evolution, pr...

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Published in	Nature communications Vol. 7; no. 1; p. 11660
Main Authors	Barton, John P., Goonetilleke, Nilu, Butler, Thomas C., Walker, Bruce D., McMichael, Andrew J., Chakraborty, Arup K.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 23.05.2016 Nature Publishing Group Nature Portfolio
Subjects	631/250/1933 631/250/2152/1566 631/250/255/1901 631/326/596/2554 Entropy Evolution Evolution, Molecular Female Genetic Fitness HIV HIV - genetics HIV - immunology HIV Infections - immunology HIV Infections - virology Human immunodeficiency virus Human Immunodeficiency Virus Proteins - genetics Humanities and Social Sciences Humans Immune system Immunity, Cellular Infections Male Models, Genetic multidisciplinary Mutation Pathogens Polyproteins - genetics Science Science (multidisciplinary) Statistical physics Vaccines Viruses United States > US Massachusetts
Online Access	Get full text
ISSN	2041-1723 2041-1723
DOI	10.1038/ncomms11660

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Abstract	Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune control of infection. Here, we combine methods from evolutionary dynamics and statistical physics to simulate in vivo HIV sequence evolution, predicting the relative rate of escape and the location of escape mutations in response to T-cell-mediated immune pressure in a cohort of 17 persons with acute HIV infection. Predicted and clinically observed times to escape immune responses agree well, and we show that the mutational pathways to escape depend on the viral sequence background due to epistatic interactions. The ability to predict escape pathways and the duration over which control is maintained by specific immune responses open the door to rational design of immunotherapeutic strategies that might enable long-term control of HIV infection. Our approach enables intra-host evolution of a human pathogen to be predicted in a probabilistic framework. HIV evolves within infected persons to escape being destroyed by the immune system. Here, Barton et al . combine evolutionary dynamics and statistical physics to simulate this process, successfully predicting the relative rate and location of escape mutations in viral sequences for a cohort of HIV-infected persons.
AbstractList	HIV evolves within infected persons to escape being destroyed by the immune system. Here, Barton et al. combine evolutionary dynamics and statistical physics to simulate this process, successfully predicting the relative rate and location of escape mutations in viral sequences for a cohort of HIV-infected persons. Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune control of infection. Here, we combine methods from evolutionary dynamics and statistical physics to simulate in vivo HIV sequence evolution, predicting the relative rate of escape and the location of escape mutations in response to T-cell-mediated immune pressure in a cohort of 17 persons with acute HIV infection. Predicted and clinically observed times to escape immune responses agree well, and we show that the mutational pathways to escape depend on the viral sequence background due to epistatic interactions. The ability to predict escape pathways and the duration over which control is maintained by specific immune responses open the door to rational design of immunotherapeutic strategies that might enable long-term control of HIV infection. Our approach enables intra-host evolution of a human pathogen to be predicted in a probabilistic framework. Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune control of infection. Here, we combine methods from evolutionary dynamics and statistical physics to simulate in vivo HIV sequence evolution, predicting the relative rate of escape and the location of escape mutations in response to T-cell-mediated immune pressure in a cohort of 17 persons with acute HIV infection. Predicted and clinically observed times to escape immune responses agree well, and we show that the mutational pathways to escape depend on the viral sequence background due to epistatic interactions. The ability to predict escape pathways and the duration over which control is maintained by specific immune responses open the door to rational design of immunotherapeutic strategies that might enable long-term control of HIV infection. Our approach enables intra-host evolution of a human pathogen to be predicted in a probabilistic framework. HIV evolves within infected persons to escape being destroyed by the immune system. Here, Barton et al . combine evolutionary dynamics and statistical physics to simulate this process, successfully predicting the relative rate and location of escape mutations in viral sequences for a cohort of HIV-infected persons. Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune control of infection. Here, we combine methods from evolutionary dynamics and statistical physics to simulate in vivo HIV sequence evolution, predicting the relative rate of escape and the location of escape mutations in response to T-cell-mediated immune pressure in a cohort of 17 persons with acute HIV infection. Predicted and clinically observed times to escape immune responses agree well, and we show that the mutational pathways to escape depend on the viral sequence background due to epistatic interactions. The ability to predict escape pathways and the duration over which control is maintained by specific immune responses open the door to rational design of immunotherapeutic strategies that might enable long-term control of HIV infection. Our approach enables intra-host evolution of a human pathogen to be predicted in a probabilistic framework.
ArticleNumber	11660
Author	Butler, Thomas C. McMichael, Andrew J. Barton, John P. Chakraborty, Arup K. Goonetilleke, Nilu Walker, Bruce D.
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/27212475$$D View this record in MEDLINE/PubMed
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Snippet	Human immunodeficiency virus (HIV) evolves within infected persons to escape being destroyed by the host immune system, thereby preventing effective immune... HIV evolves within infected persons to escape being destroyed by the immune system. Here, Barton et al. combine evolutionary dynamics and statistical physics...
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SubjectTerms	631/250/1933 631/250/2152/1566 631/250/255/1901 631/326/596/2554 Entropy Evolution Evolution, Molecular Female Genetic Fitness HIV HIV - genetics HIV - immunology HIV Infections - immunology HIV Infections - virology Human immunodeficiency virus Human Immunodeficiency Virus Proteins - genetics Humanities and Social Sciences Humans Immune system Immunity, Cellular Infections Male Models, Genetic multidisciplinary Mutation Pathogens Polyproteins - genetics Science Science (multidisciplinary) Statistical physics Vaccines Viruses
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Title	Relative rate and location of intra-host HIV evolution to evade cellular immunity are predictable
URI	https://link.springer.com/article/10.1038/ncomms11660 https://www.ncbi.nlm.nih.gov/pubmed/27212475 https://www.proquest.com/docview/1790478887 https://www.proquest.com/docview/1790925762 https://pubmed.ncbi.nlm.nih.gov/PMC4879252 https://doaj.org/article/6124de3f685042c7ac6137c260b38667
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