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Principles Governing Establishment versus Collapse of HIV-1 Cellular Spread.

Cell host & microbe (2019-11-26)
Jason M Hataye, Joseph P Casazza, Katharine Best, C Jason Liang, Taina T Immonen, David R Ambrozak, Samuel Darko, Amy R Henry, Farida Laboune, Frank Maldarelli, Daniel C Douek, Nicolas W Hengartner, Takuya Yamamoto, Brandon F Keele, Alan S Perelson, Richard A Koup
RÉSUMÉ

A population at low census might go extinct or instead transition into exponential growth to become firmly established. Whether this pivotal event occurs for a within-host pathogen can be the difference between health and illness. Here, we define the principles governing whether HIV-1 spread among cells fails or becomes established by coupling stochastic modeling with laboratory experiments. Following ex vivo activation of latently infected CD4 T cells without de novo infection, stochastic cell division and death contributes to high variability in the magnitude of initial virus release. Transition to exponential HIV-1 spread often fails due to release of an insufficient amount of replication-competent virus. Establishment of exponential growth occurs when virus produced from multiple infected cells exceeds a critical population size. We quantitatively define the crucial transition to exponential viral spread. Thwarting this process would prevent HIV transmission or rebound from the latent reservoir.

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Sigma-Aldrich
Lectine de Phaseolus vulgaris (haricot rouge), Phytohemagglutinin PHA-M, lyophilized powder
Sigma-Aldrich
Efavirenz, ≥98% (HPLC)