Internalization of HIV glycoprotein gp120 is associated with down-modulation of membrane CD4 and p56lck together with impairment of T cell activation.

We previously demonstrated that long term treatment of the Ag-specific CD4+ T cell clone P28D with soluble HIV envelope glycoprotein gp120 results in a marked impairment of CD3/TCR-mediated responses. In this report, to further understand these inhibitory effects, the binding properties and internalization of gp120 have been investigated, in parallel with functional studies, in long term incubations of P28D cells with gp120. Immunofluorescence studies show that surface-bound gp120 level is maximal within 1 h of incubation at 37 degrees C and then gradually decreases. This decrease is accompanied by a progressive down-modulation of membrane CD4 (30-35% loss over a 18-h incubation period) without concomitant alteration of the CD4 mRNA steady-state level. Similar experiments performed with 125I-labeled gp120 demonstrate that the glycoprotein is progressively internalized (up to 35% internalized material after 18 h) and that it accumulates inside the cells. Confocal microscopy studies show that internalized gp120 is concentrated in localized intracellular compartments. CD4 also accumulates in compartments with a similar localization and is stained with mAb OKT4 but not with mAb OKT4a. Concomitantly to internalization of gp120 and disappearance of membrane CD4, a correlated loss of the CD4-associated tyrosine kinase p56lck is evidenced. Interestingly, a progressive impairment of the P28D responses to specific Ag or to anti-CD3 mAb is also observed. Inhibitions of T cell proliferation increase with the degree of both CD4 and p56lck down-modulation. Removal of exogenous gp120 results in a rapid and spontaneous release of internalized gp120 into a degraded form. A progressive restoration of CD4 and p56lck levels is also noticed. In parallel, CD3/TCR-mediated responses of clone P28D are fully recovered. Altogether, our results suggest that HIV-1 glycoprotein gp120 is able to down-modulate membrane CD4 presumably by a cointernalization process and to further down-modulate the associated p56lck. This dual phenomenon is presumably involved in the direct immunosuppressive effect of gp120 on the CD3/TCR-mediated activation pathway.