Abstract
Human immunodeficiency virus and other lentiviruses infect cells independent of cell cycle progression, but gammaretroviruses, such as the murine leukemia virus (MLV) require passage of cells through mitosis. This property is thought to be important for the ability of HIV to infect resting CD4+ T cells and terminally differentiated macrophages. Multiple and independent redundant nuclear localization signals encoded by HIV have been hypothesized to facilitate migration of viral genomes into the nucleus. The integrase (IN) protein of HIV is one of the HIV elements that targets to the nucleus; however, its role in nuclear entry of virus genomes has been difficult to describe because mutations in IN are pleiotropic. To investigate the importance of the HIV IN protein for infection of non-dividing cells, and to investigate whether or not IN was redundant with other viral signals for cell cycle-independent nuclear entry, we constructed an HIV-based chimeric virus in which the entire IN protein of HIV was replaced by that of MLV. This chimeric virus with a heterologous IN was infectious at a low level, and was able to integrate in an IN-dependent manner. Furthermore, this virus infected non-dividing cells as well as it infected dividing cells. Moreover, we used the chimeric HIV with MLV IN to further eliminate all of the other described nuclear localization signals from an HIV genome—matrix, IN, Viral Protein R, and the central polypurine tract—and show that no combination of the virally encoded NLS is essential for the ability of HIV to infect non-dividing cells.
Highlights
Human immunodeficiency virus and other lentiviruses have the ability to infect non-dividing cells [1,2,3]
total cell lysates (To) determine if the karyophilic property of IN is essential for the infectivity of HIV in non-dividing cells, HIV-1 IN was replaced with murine leukemia virus (MLV) IN within an HIV-based provirus, generating the chimeric clone called MHIV-mIN (Figure 1)
We created a chimeric HIV-1 in which HIV IN is replaced by its counterpart from MLV and demonstrated that HIV can integrate with a heterologous IN protein
Summary
Human immunodeficiency virus and other lentiviruses have the ability to infect non-dividing cells [1,2,3]. This property allows HIV to integrate into two major types of virus reservoirs in vivo: resting CD4þ T cells and macrophages [4]. Infection and transduction with foamy retroviruses depends on cell cycle and requires mitosis [8,9,10]. The avian sarcoma virus, appears to be able to integrate viral genomes in non-dividing cells [11,12], but fails to produce virus particles, indicating that it requires mitosis for a later stage of the viral life-cycle [13,14]
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