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Human immunodeficiency virus infection of cells arrested in the cell cycle. 总被引:48,自引:3,他引:45 下载免费PDF全文
Cell proliferation is necessary for proviral integration and productive infection of most retroviruses. Nevertheless, the human immunodeficiency virus (HIV) can infect non-dividing macrophages. This ability to grow in non-dividing cells is not specific to macrophages because, as we show here, CD4+ HeLa cells arrested at stage G2 of the cell cycle can be infected by HIV-1. Proliferation is necessary for these same cells to be infected by a murine retrovirus, MuLV. HIV-1 integrates into the arrested cell DNA and produces viral RNA and protein in a pattern similar to that in normal cells. In addition, our data suggest that the ability to infect non-dividing cells is due to one of the HIV-1 core virion proteins. HIV infection of non-dividing cells distinguishes lentiviruses from other retroviruses and is likely to be important in the natural history of HIV infection. 相似文献
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Productive HIV-1 infection of macrophages restricted to the cell fraction with proliferative capacity. 总被引:13,自引:0,他引:13 下载免费PDF全文
H Schuitemaker N A Kootstra R A Fouchier B Hooibrink F Miedema 《The EMBO journal》1994,13(24):5929-5936
Retroviruses establish productive infection only in proliferating cells. Macrophages are often considered to be non-proliferating in vitro yet are susceptible to HIV-1 infection. This has led to the conclusion that HIV-1 can establish infection independent of host cell proliferation. We here report that a small proportion of macrophages does have proliferative capacity. A comparable small fraction of monocyte derived macrophages (MDM) supported productive HIV-1 infection as demonstrated in limiting dilution culture. Fluorescence activated cell sorting on the basis of incorporation of BrdUrd, a thymidine analog, and subsequent PCR analysis revealed the presence of proviral DNA only in the BrdUrd positive cell fraction with DNA synthesizing activity. To identify which phase of cell cycle is required for establishment of productive infection, growth arrest in G1 or G1/S phase prior to inoculation was performed. gamma-Irradiation, which arrests primary cells in G1, prevented both cell proliferation and establishment of productive infection in MDM. Treatment of MDM with aphidicolin, a specific inhibitor of DNA polymerase alpha and delta which arrests cells in G1/S phase of the cell cycle, also inhibited DNA synthesis but did not prevent establishment of productive infection which is completely analogous to observations in T cells. Our data thus indicate that not cell division itself but cellular conditions that coincide with cell proliferation are apparently indispensable for establishment of productive infection. 相似文献
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Sarah K. Van Cor-Hosmer Dong-Hyun Kim Michele B. Daly Waaqo Daddacha Baek Kim 《The Journal of biological chemistry》2013,288(46):33253-33262
HIV-1 proviral DNA integration into host chromosomal DNA is only partially completed by the viral integrase, leaving two single-stranded DNA gaps with 5′-end mismatched viral DNA flaps. It has been inferred that these gaps are repaired by the cellular DNA repair machinery. Here, we investigated the efficiency of gap repair at integration sites in different HIV-1 target cell types. First, we found that the general gap repair machinery in macrophages was attenuated compared with that in dividing CD4+ T cells. In fact, the repair in macrophages was heavily reliant upon host DNA polymerase β (Pol β). Second, we tested whether the poor dNTP availability found in macrophages is responsible for the delayed HIV-1 proviral DNA integration in this cell type because the Km value of Pol β is much higher than the dNTP concentrations found in macrophages. Indeed, with the use of a modified quantitative AluI PCR assay, we demonstrated that the elevation of cellular dNTP concentrations accelerated DNA gap repair in macrophages at HIV-1 proviral DNA integration sites. Finally, we found that human monocytes, which are resistant to HIV-1 infection, exhibited severely restricted gap repair capacity due not only to the very low levels of dNTPs detected but also to the significantly reduced expression of Pol β. Taken together, these results suggest that the low dNTP concentrations found in macrophages and monocytes can restrict the repair steps necessary for HIV-1 integration. 相似文献
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Identification of critical amino acid residues in human immunodeficiency virus type 1 IN required for efficient proviral DNA formation at steps prior to integration in dividing and nondividing cells 下载免费PDF全文
Tsurutani N Kubo M Maeda Y Ohashi T Yamamoto N Kannagi M Masuda T 《Journal of virology》2000,74(10):4795-4806
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