The two biological activities of human immunodeficiency virus type 1 Vpu protein involve two separable structural domains.

AUTOR(ES)

Schubert, U

RESUMO

The human immunodeficiency virus type 1 (HIV-1) Vpu protein is an integral membrane phosphoprotein that induces CD4 degradation in the endoplasmic reticulum and enhances virus release from the cell surface. CD4 degradation is specific, requires phosphorylation of Vpu, and involves the interaction between Vpu and the CD4 cytoplasmic domain. In contrast, regulation of virus release is less specific and not restricted to HIV-1 and may be mechanistically-distinct from CD4 degradation. We show here that a mutant of Vpu, Vpu35, lacking most of its cytoplasmic domain has residual biological activity for virus release but is unable to induce CD4 degradation. This finding suggests that the N terminus of Vpu encoding the transmembrane (TM) anchor represents an active domain important for the regulation of virus release but not CD4 degradation. To better define the functions of Vpu's TM anchor and cytoplasmic domain, we designed a mutant, VpuRD, containing a scrambled TM sequence with a conserved amino acid composition and alpha-helical structure. The resulting protein was integrated normally into membranes, was able to form homo-oligomers, and exhibited expression levels, protein stability, and subcellular localization similar to those of wild-type Vpu. Moreover, VpuRD was capable of binding to CD4 and to induce CD4 degradation with wild-type efficiency, confirming proper membrane topology and indicating that the alteration of the Vpu TM domain did not interfere with this function of Vpu. However, VpuRD was unable to enhance the release of virus particles from infected or transfected cells, and virus encoding VpuRD had replication characteristics in T cells indistinguishable from those of a Vpu-deficient HIV-1 isolate. Mutation of the phosphorylation sites in VpuRD resulted in a protein which was unable to perform either function of Vpu. The results of our experiments suggest that the two biological activities of Vpu operate via two distinct molecular mechanisms and involve two different structural domains of the Vpu protein.

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