A PIJfATIVE chemokine receptor that we previously cloned and termed LESTR 1 has recently been shown to function as a coreceptor (termed fusin) for lymphocyte-tropic HIV-1 strains 2 • Cells expressing CD4 became permissive to infection with T -cellline-adapted HIV-1 strains of the syncytium-i.nducing phenotype after transfection with LESTR/fusin complementary DNA. We report here the identification of a human chemokine of the CXC type, stromal cell-derived factor 1 (SDF-1), as the naturaJ ligand for LESTR/fusin, and we propose the term CXCR-4 for this receptor, in keeping with the new cbemokine-receptor nomenclature. SDF-1 activates Chinese hamster ovary (CHO) cells transfected with CXCR-4 eDNA as well as blood leukocytes and lymphocytes. In cell lines expressing CXCR-4 and CD4, and in blood lymphocytes, SDF-1 is a powerful inhibitor of infection by lymphocyte-tropic HIV-1 strains, whereas the CC chemokines RANTES, MIP-1a and MIP-1~, which were shown previously to prevent infection with primary, monocyte-tropic viruses 3 , are inactive. In combination with CC chemokines, which block the infection with monocyte/macrophage-tropic viruses, SDF-1 could help to decrease virus load and prevent the emergence of the syncytium-inducing viruses which are characteristic of the late stages of AIDS 4• LESTR (leukocyte-expressed seven-transmembrane-domain receptor) is an orphan receptor with structural similarity to chemokine receptors. Despite extensive testing of a large number of chemokines, the ligand for LESTR remained elusive 1 • Murine SDF-1 was described as a factor that is produced by bonemarrow stromal cells and shown to induce proliferation of B-cell progenitorsM as well as recruitment of T cells 7 • The human homologue, which was cloned subsequently, is virtually identical to murine SDF-1 (see Methods). SDF-1 is a CXCchemokine with the typical four-cysteine motif and the first two cysteines separated by one amino acid 8 • When human SDF-1 was tested on the CH0-1C2 clone which stably expresses LESTR, a transient rise of cytosolic free Ca 2 + ([Ca 2 +];) was observed (Fig. 1a). This response, which is characteristic of the action of chemokines on blood leukocytes, was not observed with parental CHO cells. Other chemokines, including RANTES (for regulation-upon-activation, normal T expressed and secreted) macrophage inflammatory protein (MIP), MIP-1o: and MIP-1~, were not active. Monocytes, neutrophils and phytohaemagglutinin (PHA)-activated peripheral-blood lymphocytes (PBLs) were also stimulated by SDF-1, as shown by [Ca 2 +]; changes and chemotaxis (Fig. 1b, d). Real-time recordings of Ca 2 + mobilization after sequential stimulation are a reliable way to assess receptor usage by chemokines 8 • Stimulation with a chemokine (at saturating concentrations) causes receptor desensitization, and no response is observed when the cells are restimulated within a short time by a chemokine acting on the same receptor. As shown in Fig. lc, monocytes stimulated with SDF-1 remained fully responsive to subsequent stimulation with ...
Like other pathogenic viruses, HIV-1 down-modulates surface expression of major histocompatibility complex class I (MHC-I) molecules in infected cells, thus impairing lysis by cytotoxic T lymphocytes. We have observed that this phenomenon depends on the expression of Nef. nef is an early gene of primate lentiviruses, which is necessary for maintaining high virus loads and inducing AIDS. Nef is not necessary for viral replication in vitro and stimulates the endocytosis of CD4. We show that the expression of MHC-I at the surface of lymphoid, monocytic and epithelial cells was reduced in the presence of Nef protein from various HIV-1 strains. Whereas MHC-I protein synthesis and transport through the endoplasmic reticulum and cis Golgi apparatus occurred normally in Nef(+) cells, surface MHC-I molecules were rapidly internalized, accumulated in endosomal vesicles and were degraded. The stimulation of MHC-I endocytosis by Nef represents a previously undocumented viral mechanism for evading the immune response.
The surface expression of MHC I is reduced in HIV-infected cells. We show that the Nef protein affects the intracellular sorting of HLA-A and -B molecules. In the presence of Nef, these proteins accumulate in the Golgi and colocalize with clathrin-coated vesicles. MHC I modulation relies on a tyrosine-based sorting signal located in the cytoplasmic domain of HLA-A and -B heavy chains. This cryptic sorting signal becomes operative only in the presence of Nef. Nef interacts with the medium (mu) subunit of AP adaptor complexes involved in the recognition of tyrosine-based sorting signals, likely facilitating the connection between MHC I and the clathrin-dependent sorting machinery.
Whereas human immunodeficiency virus (HIV) infects various cell types by fusion at the plasma membrane, we observed a different entry route in human primary macrophages, in which macropinocytosis is active. Shortly after exposure of macrophages to HIV-1 and irrespective of viral envelope-receptor interactions, particles were visible in intracellular vesicles, which were identified as macropinosomes. Most virions appeared subsequently degraded. However, fusion leading to capsid release in the cytosol and productive infection could take place inside vesicles when particles were properly enveloped. These observations provide new insights into HIV-1 interactions with a cell target relevant to pathogenesis. They may have implications for the design of soluble inhibitors aimed at interfering with the fusion or entry processes.
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