Transport of the viral genome into the nucleus required phosphorylation of components in the preintegration complex by virion-associated host cellular kinases. In this study, we showed that ERK-2/MAPK is associated with simian immunodeficiency virus (SIV) virions and regulated the nuclear transport of Vpx and virus replication in non-proliferating target cells by phosphorylating Vpx. Suppression of the virion-associated ERK-2 activity by MAPK pathway inhibitors impaired both Vpx nuclear import and viral infectivity without affecting virus particle maturation and release. In addition, mutation analysis indicated that the inactivation of Vpx phosphorylation precluded nuclear import and reduced virus replication in macrophage cultures, even when functional integrase and Gag matrix proteins implicated in viral preintegration complex nuclear import are present. In this study, we also showed that co-localization of Vpx with Gag precursor in the cytoplasm is a prerequisite for Vpx incorporation into virus particles. Substitution of hydrophobic Leu-74 and Ile-75 with serines in the helical domain abrogated Vpx nuclear import, and its incorporation into virus particles, despite its localization in the cytoplasm, suggested that the structural integrity of helical domains is critical for Vpx functions. Taken together, these studies demonstrated that the host cell MAPK signal transduction pathway regulated an early step in SIV infection.
Lentiviruses, human immunodeficiency viruses (HIVs), and simian immunodeficiency viruses (SIVs) are distinguished from oncoretroviruses by their ability to infect nondividing cells such as macrophages. Retroviruses must gain access to the host cell nucleus for replication and propagation. HIV and SIV preintegration complexes (PIC) enter nuclei after traversing the central aqueous channel of the limiting nuclear pore complex without membrane breakdown. Among the nucleophilic proteins, namely, matrix, integrase, Vpx, and Vpr, present in HIV type 2/SIV PIC, Vpx is implicated in nuclear targeting and is also available for incorporation into budding virions at the plasma membrane. The mechanisms of these two opposite functions are not known. We demonstrate that Vpx is a nucleocytoplasmic shuttling protein and contains two novel noncanonical nuclear import signals and a leptomycin B-sensitive nuclear export signal. In addition, Vpx interacts with the cellular tyrosine kinase Fyn through its C-terminal proline-rich motif. Furthermore, our data indicate that Fyn kinase phosphorylates Vpx and regulates its export from nucleus. Replacement of conserved tryptophan residues within domain 41 to 63 and tyrosine residues at positions 66, 69, and 71 in Vpx impairs its nuclear export, virion incorporation, and SIV replication in macrophages. Nuclear export is essential to ensure the availability of Vpx in the cytoplasm for incorporation into virions, leading to efficient viral replication within nondividing cells.
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