e Foamy viruses (FV) are complex retroviruses that naturally infect all nonhuman primates (NHP) studied to date. Zoonotic transmission of Old World NHP simian foamy viruses (SFV) has been documented, leading to nonpathogenic persistent infections. To date, there have been no reports concerning zoonotic transmission of New World monkey (NWM) SFV to humans and resulting infection. In this study, we developed a Western blot assay to detect antibodies to NWM SFV, a nested PCR assay to detect NWM SFV DNA, and a -galactosidase-containing indicator cell line to assay replication of NWM SFV. Using these tools, we analyzed the plasma and blood of 116 primatologists, of whom 69 had reported exposures to NWM. While 8 of the primatologists tested were seropositive for SFV from a NWM, the spider monkey, none had detectable levels of viral DNA in their blood. We found that SFV isolated from three different species of NWM replicated in some, but not all, human cell lines. From our data, we conclude that while humans exposed to NWM SFV produce antibodies, there is no evidence for long-term viral persistence. Foamy viruses (FV) are unusual complex retroviruses that infect cattle, horses, cats, and all species of nonhuman primates (NHP) examined to date (reviewed in reference 1). Simian foamy viruses (SFV) can cause life-long infections in natural hosts without any apparent pathogenicity (2). In cell culture models, SFV can establish latent infections in some cell types and lytic infections in others, resulting in cytopathic effects (CPE) that include syncytium formation (reviewed in reference 3). In infected macaques, FV DNA is found in almost all tissues, while FV RNA and replicating virus are limited to the superficial epithelial cells of the oral mucosa in immunocompetent animals (4, 5). Consistent with the site of viral replication detected in vivo, it is thought that FV are transmitted via saliva, through grooming, biting, and other behaviors. Studies of natural transmission suggest that infant and young NHP are resistant to infection, presumably because of passive immunity from maternal antibodies, but typically (for macaques) become infected by 3 years of age (6). Epidemiological studies indicate that SFV seroprevalence can reach up to 100% in adults (reviewed in reference 7).Although FV do not naturally infect humans, SFV have been found to be zoonotically transmitted, most likely through contact with saliva from an infected NHP. Several studies have documented the transmission of SFV to humans who interact directly with Old World (OW) NHP, including Cercopithicus species, baboons, macaques, mandrills, gorillas, and chimpanzees (reviewed in reference 7). SFV antibody-positive humans have been found in a variety of natural settings, including people in Asia who live in areas with free-ranging macaques, villagers in Gabon with known exposure to NHP, and a population of hunters in Cameroon with bites from Old World NHP (6,(8)(9)(10)(11). SFV antibody-positive humans have also been documented in various laboratory, veterina...
BackgroundHIV-1 DNA in blood monocytes is considered a viral source of various HIV-1 infected tissue macrophages, which is also known as “Trojan horse” hypothesis. However, whether these DNA can produce virions has been an open question for years, due to the inability of isolating high titer and infectious HIV-1 directly from monocytes.ResultsIn this study, we demonstrated successful isolation of two strains of M-HIV-1 (1690 M and 1175 M) from two out of four study subjects, together with their in vivo controls, HIV-1 isolated from CD4+ T-cells (T-HIV-1), 1690 T and 1175 T. All M- and T- HIV-1 isolates were detected CCR5-tropic. Both M- HIV-1 exhibited higher levels of replication in monocyte-derived macrophages (MDM) than the two T- HIV-1. Consistent with our previous reports on the subject 1175 with late infection, compartmentalized env C2-V3-C3 sequences were identified between 1175 M and 1175 T. In contrast, 1690 M and 1690 T, which were isolated from subject 1690 with relatively earlier infection, showed homogenous env C2-V3-C3 sequences. However, multiple reverse transcriptase (RT) inhibitor resistance-associated variations were detected in the Gag-Pol region of 1690 M, but not of 1690 T. By further measuring HIV DNA intracellular copy numbers post-MDM infection, 1690 M was found to have significantly higher DNA synthesis efficiency than 1690 T in macrophages, indicating a higher RT activity, which was confirmed by AZT inhibitory assays.ConclusionsThese results suggested that the M- and T- HIV-1 are compartmentalized in the two study subjects, respectively. Therefore, we demonstrated that under in vitro conditions, HIV-1 infected human monocytes can productively release live viruses while differentiating into macrophages.
Este artigo tem como objetivo descobrir as particularidades de desenvolvimento do sistema de gerenciamento de universidades digitais da Rússia na Rússia no contexto da digitalização universal e identificar as oportunidades para o desenvolvimento de elementos do ambiente de aprendizado digital das universidades. O principal método de pesquisa da questão é uma análise comparativa do nível de competências digitais de estudantes de educação profissional na Rússia e nos estados membros da União Europeia. Os autores do artigo descobriram as particularidades dos processos transformacionais da educação moderna, revelaram o papel principal do desenvolvimento das tecnologias da informação e da comunicação, determinaram o lugar da Rússia no espaço de aprendizado mundial e analisaram a dinâmica da posição das instituições de ensino superior russas no país. a classificação mundial da universidade.
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