Mutations in the leucine zipper of the human immunodeficiency virus type 1 transmembrane glycoprotein affect fusion and infectivity.

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J Virol. 1992 August; 66(8): 4748-4756

Mutations in the leucine zipper of the human immunodeficiency virus type 1 transmembrane glycoprotein affect fusion and infectivity.

J W Dubay, S J Roberts, B Brody and E Hunter

Department of Microbiology, University of Alabama, Birmingham 35294.

ABSTRACT

Many retroviruses, including the human and simian immunodeficiencyviruses, contain a leucine zipper-like repeat in a highly conservedregion of the external domain of the transmembrane (TM) glycoprotein.This region has been postulated to play a role in stabilizingthe oligomeric form of these molecules. To determine what rolethis region might play in envelope structure and function, severalmutations were engineered into the middle isoleucine of theleucine zipper-like repeat of the human immunodeficiency virustype 1 (HIV-1) TM protein. A phenotypic analysis of these mutantsdemonstrated that conservative mutations (Ile to Val or Leu)did not block the ability of the viral glycoprotein to mediatecell-cell fusion or affect virus infectivity. In contrast, eachof the other mutations, except for the Ile-to-Ala change, completelyinhibited the ability of the glycoprotein to fuse HeLa-T4 cellsand of mutant virions to infect H9 cells. The alanine mutationproduced an intermediate phenotype in which both cell fusionand infectivity were significantly reduced. Thus, the biologicalactivity of the glycoprotein titrates with the hydrophobicityof the residue in this position. None of the mutations affectedthe synthesis, oligomer formation, transport, or processingof the HIV glycoprotein complex. Although these results do notrule out a role for the leucine zipper region in glycoproteinoligomerization, they clearly point to a critical role for itin a post-CD4 binding step in HIV membrane fusion and virusentry.

J Virol. 1992 August; 66(8): 4748-4756

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