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Journal of Virology, August 2000, p. 7005-7015, Vol. 74, No. 15
Department of Biochemistry and Molecular
Biology, Oregon Health Sciences University, Portland, Oregon 97201-3098
Received 21 October 1999/Accepted 26 April 2000
In addition to the primary cell surface receptor CD4, CCR5 or
another coreceptor is necessary for infections by human
immunodeficiency virus type 1 (HIV-1), yet the mechanisms of coreceptor
function and their stoichiometries in the infection pathway remain
substantially unknown. To address these issues, we studied the effects
of CCR5 concentrations on HIV-1 infections using wild-type CCR5 and two attenuated mutant CCR5s, one with the mutation Y14N at a critical tyrosine sulfation site in the amino terminus and one with the mutation
G163R in extracellular loop 2. The Y14N mutation converted a YYT
sequence at positions 14 to 16 to an NYT consensus site for N-linked
glycosylation, and the mutant protein was shown to be glycosylated at
that position. The relationships between HIV-1 infectivity values and
CCR5 concentrations took the form of sigmoidal (S-shaped) curves, which
were dramatically altered in different ways by these mutations. Both
mutations shifted the curves by factors of approximately 30- to
150-fold along the CCR5 concentration axis, consistent with evidence
that they reduce affinities of virus for the coreceptor. In addition,
the Y14N mutation specifically reduced the maximum efficiencies of
infection that could be obtained at saturating CCR5 concentrations. The
sigmoidal curves for all R5 HIV-1 isolates were quantitatively
consistent with a simple mathematical model, implying that CCR5s
reversibly associate with cell surface HIV-1 in a
concentration-dependent manner, that approximately four to six CCR5s
assemble around the virus to form a complex needed for infection, and
that both mutations inhibit assembly of this complex but only the Y14N
mutation also significantly reduces its ability to successfully mediate
HIV-1 infections. Although several alternative models would be
compatible with our data, a common feature of these alternatives is the
cooperation of multiple CCR5s in the HIV-1 infection pathway. This
cooperativity will need to be considered in future studies to address
in detail the mechanism of CCR5-mediated HIV-1 membrane fusion.
0022-538X/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
Cooperation of Multiple CCR5 Coreceptors Is
Required for Infections by Human Immunodeficiency Virus Type
1
*
Corresponding author. Mailing address: Department of
Biochemistry and Molecular Biology, Oregon Health Sciences University, Portland, OR 97201-3098. Phone: (503) 494-8442. Fax: (503) 494-8393. E-mail: kabat{at}ohsu.edu.
Journal of Virology, August 2000, p. 7005-7015, Vol. 74, No. 15
0022-538X/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
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