Human immunodeficiency virus type 1 Vpu protein induces degradation of CD4 in vitro: the cytoplasmic domain of CD4 contributes to Vpu sensitivity.

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J Virol. 1993 July; 67(7): 3877-3884

Human immunodeficiency virus type 1 Vpu protein induces degradation of CD4 in vitro: the cytoplasmic domain of CD4 contributes to Vpu sensitivity.

M Y Chen, F Maldarelli, M K Karczewski, R L Willey and K Strebel

Laboratory of Molecular Microbiology, National Institute of Allergy and Infectious Diseases, Bethesda, Maryland 20892.

ABSTRACT

CD4 is an integral membrane glycoprotein which functions asthe human immunodeficiency virus (HIV) receptor for infectionof human host cells. We have recently demonstrated that Vpu,an HIV type 1 (HIV-1) encoded integral membrane phosphoprotein,induces rapid degradation of CD4 in the endoplasmic reticulum.In this report, we describe an in vitro model system that allowedus to define important parameters for Vpu-dependent CD4 degradation.The rate of CD4 decay in rabbit reticulocyte lysate was approximatelyone-third of that observed previously in tissue culture experimentsin the presence of Vpu (40 versus 12 min) and required no otherHIV-1 encoded proteins. Degradation was contingent on the presenceof microsomal membranes in the assay and the coexpression ofVpu and CD4 in the same membrane compartment. By using the invitro degradation assay, the effects of specific mutations inCD4, including C-terminal truncations and glycosylation mutants,were analyzed. The results of these experiments indicate thatVpu has the capacity to induce degradation of glycosylated aswell as nonglycosylated membrane-associated CD4. Truncationof 13 C-terminal amino acids of CD4 did not affect the abilityof Vpu to induce its degradation. However, the removal of 32amino acids from the C-terminus of CD4 completely abolishedsensitivity to Vpu. This suggests that Vpu targets specificsequences in the cytoplasmic domain of CD4 to induce its degradation.We also analyzed the effects of mutations in Vpu on its biologicalactivity in the in vitro CD4 degradation assay. The resultsof these experiments suggest that sequences critical for thisfunction of Vpu are located in its hydrophilic C-terminal domain.

J Virol. 1993 July; 67(7): 3877-3884

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