Abstract
Bst-2/Tetherin inhibits the release of HIV by tethering newly formed virus particles to the plasma membrane of infected cells. Although the mechanisms of Tetherin-mediated restriction are increasingly well understood, the biological relevance of this restriction in the natural target cells of HIV is unclear. Moreover, whether Tetherin exerts any restriction on the direct cell-cell spread of HIV across intercellular contacts remains controversial. Here we analyse the restriction endogenous Tetherin imposes on HIV transmission from primary human macrophages, one of the main targets of HIV in vivo. We find that the mRNA and protein levels of Tetherin in macrophages are comparable to those in T cells from the same donors, and are highly upregulated by type I interferons. Improved immunocytochemistry protocols enable us to demonstrate that Tetherin localises to the cell surface, the trans-Golgi network, and the macrophage HIV assembly compartments. Tetherin retains budded virions in the assembly compartments, thereby impeding the release and cell-free spread of HIV, but it is not required for the maintenance of these compartments per se. Notably, using a novel assay to quantify cell-cell spread, we show that Tetherin promotes the transfer of virus clusters from macrophages to T cells and thereby restricts the direct transmission of a dual-tropic HIV-1. Kinetic analyses provide support for the notion that this direct macrophage-T cell spread is mediated, at least in part, by so-called virological synapses. Finally, we demonstrate that the viral Vpu protein efficiently downregulates the cell surface and overall levels of Tetherin, and thereby abrogates this HIV restriction in macrophages. Together, our study shows that Tetherin, one of the most potent HIV restriction factors identified to date, can inhibit virus spread from primary macrophages, regardless of the mode of transmission.
Highlights
The replication of viruses can be inhibited by a number of cellular proteins, collectively referred to as restriction factors [1]
CD4+ T cells and macrophages are the main targets of human immunodeficiency viruses (HIV) in vivo, and both cell types express Tetherin
We investigate the sensitivity of Tetherin expression to interferon, and the subcellular localisation of the restriction factor in primary human macrophages
Summary
The replication of viruses can be inhibited by a number of cellular proteins, collectively referred to as restriction factors [1]. In a number of these cases, viruses have evolved mechanisms to abrogate the influence of specific cellular restriction factors. As implied by its name, Tetherin has the ability to tether HIV particles to the surface of infected cells, and this function is attributable to its unusual topology. During assembly and budding of HIV particles at the plasma membrane (PM) of infected cells, Tetherin can be incorporated into nascent virions via one of its membrane anchors, leaving the second anchor in the PM, and thereby preventing virus release into the extracellular milieu [7,8,9]. The failure to release free particles inhibits the cell-free spread of HIV, which relies on the diffusion of released virus toward its target cells
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