Syndecans serve as attachment receptors for human immunodeficiency virus type 1 on macrophages.

Macrophages are thought to represent one of the first cell types in the body to be infected during the early stage of human immunodeficiency virus type 1 (HIV-1) transmission and represent a potential viral reservoir in vivo. Thus, an understanding of HIV-1 attachment to these cells is fundamental to the development of novel anti-HIV-1 therapies. Although one of the major targets of HIV-1 in vivo--CD4(+) T lymphocytes--express high CD4 levels, other major targets such as macrophages do not. We asked in this study whether this low CD4 level on macrophages is sufficient to support HIV-1 attachment to these cells or whether cell surface proteins other than CD4 are required for this process. We show that CD4 alone is not sufficient to support the initial adsorption of HIV-1 to macrophages. Importantly, we find that heparan sulfate proteoglycans (HSPGs) serve as the main class of attachment receptors for HIV-1 on macrophages. Most importantly, we demonstrate that a single family of HSPGs, the syndecans, efficiently mediates HIV-1 attachment and represents an abundant class of attachment receptors on macrophages.

Human immunodeficiency virus type 1 hijacks host cyclophilin A for its attachment to target cells.

Our laboratory has identified a new facet of human immunodeficiency virus type 1 (HIV-1) entry. We demonstrated that the incorporation of host cyclophilin A (CypA) into nascent viruses is absolutely required for HIV-1 attachment to target cells. Although CypA is initially incorporated into the interior of the virus, we found that during maturation CypA relocates to the viral surface. Our work indicates that exposed CypA mediates HIV-1 attachment to target cells via heparans. We believe that this interaction between CypA and heparan represents the initial step in HIV-1 entry.

Host cyclophilin A mediates HIV-1 attachment to target cells via heparans.

The present study proposes a novel mode of action for cyclophilin A (CypA) in the HIV-1 life cycle. We demonstrate that CypA-deficient viruses do not replicate because they fail to attach to target cells. We show that CypA is exposed at the viral membrane and mediates HIV-1 attachment. We identify heparan as the exclusive cellular binding partner for CypA. Furthermore, CypA binds directly to heparan via a domain rich in basic residues similar to known heparin-binding motifs. This interaction between exposed CypA and cell surface heparans represents the initial step of HIV-1 attachment and is a necessary precursor to gp120-binding to CD4. In conclusion, HIV-1 attachment to target cells is a multi-step process that requires an initial CypA-heparan interaction followed by the gp120-CD4 interaction.