Kinetic Factors Control Efficiencies of Cell Entry, Efficacies of Entry Inhibitors, and Mechanisms of Adaptation of Human Immunodeficiency Virus

doi:10.1128/JVI.79.7.4347-4356.2005

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Journal of Virology, April 2005, p. 4347-4356, Vol. 79, No. 7
0022-538X/05/$08.00+0 doi:10.1128/JVI.79.7.4347-4356.2005
Copyright © 2005, American Society for Microbiology. All Rights Reserved.

Kinetic Factors Control Efficiencies of Cell Entry, Efficacies of Entry Inhibitors, and Mechanisms of Adaptation of Human Immunodeficiency Virus

Emily J. Platt, James P. Durnin, and David Kabat^*

Department of Biochemistry and Molecular Biology, Oregon Health and Science University, Portland, Oregon

Received 1 July 2004/ Accepted 1 November 2004

Replication of human immunodeficiency virus type 1 (HIV-1) indiverse conditions limiting for viral entry into cells frequentlyleads to adaptive mutations in the V3 loop of the gp120 envelopeglycoprotein. This has suggested that the V3 loop limits theefficiencies of HIV-1 infections, possibly by directly affectinggp120-coreceptor affinities. In contrast, V3 loop mutationsthat enable HIV-1_JR-CSF to use the low-affinity mutant coreceptorCCR5(Y14N) are shown here to have negligible effects on thevirus-coreceptor affinity but to dramatically accelerate theirreversible conformational conversion of the envelope gp41subunits from a three-stranded coil into a six-helix bundle.This slow step is blocked irreversibly by the inhibitor T-20.To further evaluate the role of entry rates in controlling infectionefficiencies and viral adaptations, we developed methods toquantitatively measure viral entry kinetics. The virions wereadsorbed by spinoculation at 4°C onto HeLa-CD4/CCR5 cellclones that either had limiting or saturating concentrationsof CCR5. After warming to 37°C, the completion of entrywas monitored over time by the resistance of infections to thecompetitive CCR5 inhibitor TAK-779. Our results suggest thatthe efficiency of entry of cell-attached infectious HIV-1 isprincipally controlled by three kinetic processes. The firstis a lag phase that is caused in part by the concentration-dependentreversible association of virus with CD4 and CCR5 to form anequilibrium assemblage of complexes. Second, this assembly steplowers but does not eliminate a large activation energy barrierfor a rate-limiting, CCR5-dependent conformational change ingp41 that is sensitive to blockage by T-20. The rate of infectiontherefore depends on the fraction of infectious virions thatare sufficiently saturated with CCR5 to undergo this conformationalchange and on the magnitude of the activation energy barrier.Although only a small fraction of fully assembled viral complexesovercome this barrier per hour, the ensuing steps of entry arerapidly completed within 5 to 10 min. Thus, this barrier limitsthe overall flow rate at which the attached virions enter cells,but it has no effect on the lag time that precedes this entryflow. Third, a relatively rapid and kinetically dominant processof viral inactivation, which may partly involve endocytosis,competes with infectious viral entry. Our results suggest thatthe V3 loop of gp120 has a major effect on the rate-limitingcoreceptor-dependent conformational change in gp41 and thatadaptive viral mutations, including V3 loop mutations, functionkinetically by accelerating this inherently slow step in theentry pathway.

* Corresponding author. Mailing address: Department of Biochemistry and Molecular Biology, Oregon Health and Science University, 3181 S.W. Sam Jackson Park Rd., Portland, OR 97239-3098. Phone: (503) 494-8442. Fax: (503) 494-8393. E-mail: kabat{at}ohsu.edu.

Supplemental material for this article may be found at http://jvi.asm.org/.

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