A transmission-virulence evolutionary trade-off explains attenuation of HIV-1 in uganda

François Blanquart; Mary Kate Grabowski; Joshua Herbeck; Fred Nalugoda; David Serwadda; Michael A. Eller; Merlin L. Robb; Ronald Gray; Godfrey Kigozi; Oliver Laeyendecker; Katrina A. Lythgoe; Gertrude Nakigozi; Thomas C. Quinn; Steven J. Reynolds; Maria J. Wawer; Christophe Fraser

doi:10.7554/eLife.20492

A transmission-virulence evolutionary trade-off explains attenuation of HIV-1 in uganda

François Blanquart^*, Mary Kate Grabowski, Joshua Herbeck, Fred Nalugoda, David Serwadda, Michael A. Eller, Merlin L. Robb, Ronald Gray, Godfrey Kigozi, Oliver Laeyendecker, Katrina A. Lythgoe, Gertrude Nakigozi, Thomas C. Quinn, Steven J. Reynolds, Maria J. Wawer, Christophe Fraser

^*Corresponding author for this work

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

48 Scopus citations

Abstract

Evolutionary theory hypothesizes that intermediate virulence maximizes pathogen fitness as a result of a trade-off between virulence and transmission, but empirical evidence remains scarce. We bridge this gap using data from a large and long-standing HIV-1 prospective cohort, in Uganda. We use an epidemiological-evolutionary model parameterised with this data to derive evolutionary predictions based on analysis and detailed individual-based simulations. We robustly predict stabilising selection towards a low level of virulence, and rapid attenuation of the virus. Accordingly, set-point viral load, the most common measure of virulence, has declined in the last 20 years. Our model also predicts that subtype A is slowly outcompeting subtype D, with both subtypes becoming less virulent, as observed in the data. Reduction of set-point viral loads should have resulted in a 20% reduction in incidence, and a three years extension of untreated asymptomatic infection, increasing opportunities for timely treatment of infected individuals.

Original language	English
Article number	e20492
Journal	eLife
Volume	5
Issue number	NOVEMBER2016
DOIs	https://doi.org/10.7554/eLife.20492
State	Published - 5 Nov 2016

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10.7554/eLife.20492

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Blanquart, F., Grabowski, M. K., Herbeck, J., Nalugoda, F., Serwadda, D., Eller, M. A., Robb, M. L., Gray, R., Kigozi, G., Laeyendecker, O., Lythgoe, K. A., Nakigozi, G., Quinn, T. C., Reynolds, S. J., Wawer, M. J., & Fraser, C. (2016). A transmission-virulence evolutionary trade-off explains attenuation of HIV-1 in uganda. eLife, 5(NOVEMBER2016), Article e20492. https://doi.org/10.7554/eLife.20492

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title = "A transmission-virulence evolutionary trade-off explains attenuation of HIV-1 in uganda",

abstract = "Evolutionary theory hypothesizes that intermediate virulence maximizes pathogen fitness as a result of a trade-off between virulence and transmission, but empirical evidence remains scarce. We bridge this gap using data from a large and long-standing HIV-1 prospective cohort, in Uganda. We use an epidemiological-evolutionary model parameterised with this data to derive evolutionary predictions based on analysis and detailed individual-based simulations. We robustly predict stabilising selection towards a low level of virulence, and rapid attenuation of the virus. Accordingly, set-point viral load, the most common measure of virulence, has declined in the last 20 years. Our model also predicts that subtype A is slowly outcompeting subtype D, with both subtypes becoming less virulent, as observed in the data. Reduction of set-point viral loads should have resulted in a 20% reduction in incidence, and a three years extension of untreated asymptomatic infection, increasing opportunities for timely treatment of infected individuals.",

author = "Fran{\c c}ois Blanquart and Grabowski, {Mary Kate} and Joshua Herbeck and Fred Nalugoda and David Serwadda and Eller, {Michael A.} and Robb, {Merlin L.} and Ronald Gray and Godfrey Kigozi and Oliver Laeyendecker and Lythgoe, {Katrina A.} and Gertrude Nakigozi and Quinn, {Thomas C.} and Reynolds, {Steven J.} and Wawer, {Maria J.} and Christophe Fraser",

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Blanquart, F, Grabowski, MK, Herbeck, J, Nalugoda, F, Serwadda, D, Eller, MA, Robb, ML, Gray, R, Kigozi, G, Laeyendecker, O, Lythgoe, KA, Nakigozi, G, Quinn, TC, Reynolds, SJ, Wawer, MJ & Fraser, C 2016, 'A transmission-virulence evolutionary trade-off explains attenuation of HIV-1 in uganda', eLife, vol. 5, no. NOVEMBER2016, e20492. https://doi.org/10.7554/eLife.20492

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AU - Blanquart, François

AU - Grabowski, Mary Kate

AU - Herbeck, Joshua

AU - Nalugoda, Fred

AU - Serwadda, David

AU - Eller, Michael A.

AU - Robb, Merlin L.

AU - Gray, Ronald

AU - Kigozi, Godfrey

AU - Laeyendecker, Oliver

AU - Lythgoe, Katrina A.

AU - Nakigozi, Gertrude

AU - Quinn, Thomas C.

AU - Reynolds, Steven J.

AU - Wawer, Maria J.

AU - Fraser, Christophe

PY - 2016/11/5

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AB - Evolutionary theory hypothesizes that intermediate virulence maximizes pathogen fitness as a result of a trade-off between virulence and transmission, but empirical evidence remains scarce. We bridge this gap using data from a large and long-standing HIV-1 prospective cohort, in Uganda. We use an epidemiological-evolutionary model parameterised with this data to derive evolutionary predictions based on analysis and detailed individual-based simulations. We robustly predict stabilising selection towards a low level of virulence, and rapid attenuation of the virus. Accordingly, set-point viral load, the most common measure of virulence, has declined in the last 20 years. Our model also predicts that subtype A is slowly outcompeting subtype D, with both subtypes becoming less virulent, as observed in the data. Reduction of set-point viral loads should have resulted in a 20% reduction in incidence, and a three years extension of untreated asymptomatic infection, increasing opportunities for timely treatment of infected individuals.

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