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51.
Direct cell-to-cell spread of human immunodeficiency virus type 1 (HIV-1) between T cells at the virological synapse (VS) is an efficient mechanism of viral dissemination. Tetherin (BST-2/CD317) is an interferon-induced, antiretroviral restriction factor that inhibits nascent cell-free particle release. The HIV-1 Vpu protein antagonizes tetherin activity; however, whether tetherin also restricts cell-cell spread is unclear. We performed quantitative cell-to-cell transfer analysis of wild-type (WT) or Vpu-defective HIV-1 in Jurkat and primary CD4+ T cells, both of which express endogenous levels of tetherin. We found that Vpu-defective HIV-1 appeared to disseminate more efficiently by cell-to-cell contact between Jurkat cells under conditions where tetherin restricted cell-free virion release. In T cells infected with Vpu-defective HIV-1, tetherin was enriched at the VS, and VS formation was increased compared to the WT, correlating with an accumulation of virus envelope proteins on the cell surface. Increasing tetherin expression with type I interferon had only minor effects on cell-to-cell transmission. Furthermore, small interfering RNA (siRNA)-mediated depletion of tetherin decreased VS formation and cell-to-cell transmission of both Vpu-defective and WT HIV-1. Taken together, these data demonstrate that tetherin does not restrict VS-mediated T cell-to-T cell transfer of Vpu-defective HIV-1 and suggest that under some circumstances tetherin might promote cell-to-cell transfer, either by mediating the accumulation of virions on the cell surface or by regulating integrity of the VS. If so, inhibition of tetherin activity by Vpu may balance requirements for efficient cell-free virion production and cell-to-cell transfer of HIV-1 in the face of antiviral immune responses.Human immunodeficiency virus type 1 can disseminate between and within hosts by cell-free infection or by direct cell-cell spread. Cell-cell spread of HIV-1 between CD4+ T cells is an efficient means of viral dissemination (65) and has been estimated to be several orders of magnitude more rapid than cell-free virus infection (6, 8, 41, 64, 74). Cell-cell transmission of HIV-1 takes place at the virological synapse (VS), a multimolecular structure that forms at the interface between an HIV-1-infected T cell and an uninfected target T cell during intercellular contact (27). Related structures that facilitate cell-cell spread of HIV-1 between dendritic cells and T cells (42) and between macrophages and T cells (16, 17) and for cell-cell spread of the related retrovirus human T-cell leukemia virus type 1 (HTLV-1) (24) have also been described. Moreover, more long-range cell-cell transfer can occur via cellular projections, including filopodia (71) and membrane nanotubes (75). The VS is initiated by binding of the HIV-1 envelope glycoprotein (Env), which is expressed on the surfaces of infected T cells, to HIV-1 entry receptors (CD4 and either CXCR4 or CCR5) present on the target cell membrane (6, 22, 27, 41, 61, 73). Interactions between LFA-1 and ICAM-1 and ICAM-3 further stabilize the conjugate interface and, together with Env receptor binding, help trigger the recruitment of viral proteins, CD4/coreceptor, and integrins to the contact site (27, 28, 61). The enrichment of viral and cellular proteins at the VS is an active process, dependent on cytoskeletal remodeling, and in the infected T cell both the actin and tubulin network regulate polarization of HIV-1 proteins at the cell-cell interface, thus directing HIV-1 assembly and egress toward the engaged target cell (27, 29). Virus is transferred by budding into the synaptic cleft, and virions subsequently attach to the target cell membrane to mediate entry, either by fusion at the plasma membrane or possibly following endocytic uptake (2, 22). In this way, the VS promotes more rapid infection kinetics and may enhance HIV-1 pathogenesis in vivo.Cells have evolved a number of barriers to resist invading microorganisms. One mechanism that appears to be particularly important in counteracting HIV-1 infection is a group of interferon-inducible, innate restriction factors that includes TRIM5α, APOBEC3G, and tetherin (38, 49, 69, 79). Tetherin (BST-2/CD317) is a host protein expressed by many cell types, including CD4+ T cells, that acts at a late stage of the HIV-1 life cycle to trap (or “tether”) mature virions at the plasma membranes of virus-producing cells, thereby inhibiting cell-free virus release (49, 56, 81). This antiviral activity of tetherin is not restricted to HIV-1, and tetherin can also inhibit the release of other enveloped viruses from infected cells (31, 40, 54, 62). What the cellular function of tetherin is besides its antiviral activity is unclear, but because expression is upregulated following alpha/beta interferon (IFN-α/β) treatment (1) and tetherin can restrict a range of enveloped viruses, tetherin has been postulated to be a broad-acting mediator of the innate immune defense against enveloped viruses.To circumvent restriction of particle release, HIV-1 encodes the 16-kDa accessory protein Vpu, which antagonizes tetherin and restores normal virus budding (47, 78). The molecular mechanisms by which Vpu does this are not entirely clear, but evidence suggests that Vpu may exert its antagonistic function by downregulating tetherin from the cell surface, trapping it in the trans-Golgi network (10) and targeting it for degradation by the proteasome (12, 39, 81) or lysosome (9, 25, 44); however, degradation of tetherin may be dispensable for Vpu activity (13), and in HIV-1-infected T cells, surface downregulation of tetherin has been reported to be minor (45), suggesting that global removal of tetherin from the plasma membrane may not be necessary to antagonize its function.Tetherin-mediated restriction of HIV-1 and antagonism by Vpu have been the focus of much research, and inhibition of cell-free virus infection has been well documented (33, 47-49, 77, 81, 82). In contrast, less studied is the impact of tetherin on direct cell-cell dissemination. For example, it is not clear if tetherin-mediated restriction inhibits T cell-T cell spread as efficiently as cell-free release or whether tetherin affects VS formation. To address these questions, we analyzed Vpu+ and Vpu− viruses for their ability to spread directly between Jurkat T cells and primary CD4+ T cells in the presence or absence of endogenous tetherin. Our data suggest that tetherin does not restrict HIV-1 in the context of cell-to-cell transmission of virus between T cells expressing endogenous tetherin. Interestingly, we also that observed that Vpu-defective virus may disseminate more efficiently by cell-cell spread at the VS. We postulate that cell-cell spread may favor viral pathogenesis by allowing HIV-1 to disseminate in the presence of tetherin during an interferon-producing innate response. 相似文献
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We take advantage of an array of hybrid baboons (Papio anubis x Papio hamadryas) living in the same social group to explore the causes and consequences of different male mating strategies. Male hamadryas hold one-male units and exhibit a sustained, intense interest in adult females, regardless of the latter's reproductive state. Anubis baboons, by contrast, live in multi-male, multi-female groups where males compete for females only when the latter are estrous. These two taxa interbreed to form a hybrid zone in the Awash National Park, Ethiopia, where previous work has suggested that hybrid males have intermediate and ineffective behavior. Here, we first examine male mating strategies with respect to morphological and genetic measures of ancestry. We found significant relationships between behavioral measures and morphology; males with more hamadryas-like morphology had more hamadryas-like behavior. However, genetic ancestry was not related to behavior, and in both cases intermediates displayed a previously unreported level of behavioral variation. Furthermore, male behavior was unrelated to natal group. Second, we evaluated reproductive success by microsatellite-based paternity testing. The highest reproductive success was found for individuals exhibiting intermediate behaviors. Moreover, over nine years, some genetically and morphologically intermediate males had high reproductive success. We conclude that the behavior of hybrid males is therefore unlikely to be an absolute barrier to admixture in the region. 相似文献
55.
Variable stability of a selectable provirus after retroviral vector gene transfer into human cells. 总被引:11,自引:3,他引:8 下载免费PDF全文
Human lymphoblasts deficient in the enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) were infected with an amphotropic helper-free retroviral vector expressing human HPRT cDNA. The stability and expression of the HPRT provirus in five cell lines with different proviral integration sites were examined by determining HPRT mutation and reversion frequencies and by blot hybridization studies. Mutation to the HPRT-negative phenotype occurred at frequencies of approximately 4 X 10(-5) to 3 X 10(-6) per generation. Most mutations in each of the five cell lines were associated with partial or complete deletions or rearrangements of the provirus. Several mutants retained a grossly intact HPRT provirus, and in one such mutant HPRT shutdown resulted from a revertible epigenetic mechanism that was not associated with global changes in proviral methylation. Therefore, mutation and shutdown of the HPRT provirus in human lymphoblasts result from mechanisms similar to those reported for several other avian and mammalian replication-competent retroviruses. 相似文献
56.
In multiple sclerosis, microglia/macrophage activation and astrocyte reactivity are important components of the lesion environment that can impact remyelination. The current study characterizes these glial populations relative to expression of candidate regulatory molecules in cuprizone demyelinated corpus callosum. Importantly, periods of recovery after acute or chronic cuprizone demyelination are examined to compare conditions of efficient versus limited remyelination, respectively. Microglial activation attenuates after early demyelination. In contrast, astrocyte reactivity persists throughout demyelination and a 6-week recovery period following either acute or chronic demyelination. This astrocyte reaction is characterized by (a) early proliferation, (b) increased expression of GFAP (glial fibrillary acidic protein), Vim (vimentin), Fn1 (fibronectin) and CSPGs (chondroitin sulphate proteoglycans) and (c) elaboration of a dense network of processes. Glial processes elongated in the axonal plane persist throughout lesion areas during both the robust remyelination that follows acute demyelination and the partial remyelination that follows chronic demyelination. However, prolonged astrocyte reactivity with chronic cuprizone treatment does not progress to barrier formation, i.e. dense compaction of astrocyte processes to wall off the lesion area. Multiple candidate growth factors and inflammatory signals in the lesion environment show strong correlations with GFAP across the acute cuprizone demyelination and recovery time course, yet there is more divergence across the progression of chronic cuprizone demyelination and recovery. However, differential glial scar formation does not appear to be responsible for differential remyelination during recovery in the cuprizone model. The astrocyte phenotype and lesion characteristics in this demyelination model inform studies to identify triggers of non-remyelinating sclerosis in chronic multiple sclerosis lesions. 相似文献
57.
The three-dimensional structure of supercoiled deoxyribonucleic acid in solution. Evidence obtained from the angular distribution of scattered light 总被引:6,自引:6,他引:0 下载免费PDF全文
1. The size and shape of superhelical double-stranded circular DNA from bacteriophage ØX174 were investigated by light-scattering. The molecular weight of the DNA is 3.17×106 and the root-mean-square radius is 103.5nm. 2. The light-scattering envelopes of various theoretical three-dimensional models for such DNA molecules were calculated by repetitive computational techniques, and the results were compared with the experimental findings. 3. It is concluded that the structure of supercoiled DNA containing −12 superhelical turns in buffer of I0.2 corresponds best to one of the more compact models for superhelix structure such as the branched model, and the commonly employed straight interwound superhelix model is incompatible with the experimental results, at the superhelix density found. 相似文献
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A region in the steroid binding domain determines formation of the non-DNA-binding, 9 S glucocorticoid receptor complex 总被引:11,自引:0,他引:11