Your search keyword '"Spumavirus"' showing total 946 results

1. Horizontal transmission of endemic viruses among rhesus macaques (Macaca mulatta): Implications for human cytomegalovirus vaccine/challenge design

Author

Yee, JoAnn L, Strelow, Lisa I, White, Jessica A, Rosenthal, Ann N, and Barry, Peter A

Subjects

Veterinary Sciences, Agricultural, Veterinary and Food Sciences, Infectious Diseases, Immunization, Prevention, Vaccine Related, HIV/AIDS, Emerging Infectious Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Humans, Animals, Cytomegalovirus, Macaca mulatta, Cytomegalovirus Vaccines, Rhadinovirus, Vaccination, cytomegalovirus, herpesvirus, macaque, nonhuman primates, Spumavirus, Zoology, Virology, Veterinary sciences

Abstract

IntroductionRhesus macaques are natural hosts to multiple viruses including rhesus cytomegalovirus (RhCMV), rhesus rhadinovirus (RRV), and Simian Foamy Virus (SFV). While viral infections are ubiquitous, viral transmissions to uninfected animals are incompletely defined. Management procedures of macaque colonies include cohorts that are Specific Pathogen Free (SPF). Greater understanding of viral transmission would augment SPF protocols. Moreover, vaccine/challenge studies of human viruses would be enhanced by leveraging transmission of macaque viruses to recapitulate expected challenges of human vaccine trials.Materials and methodsThis study characterizes viral transmissions to uninfected animals following inadvertent introduction of RhCMV/RRV/SFV-infected adults to a cohort of uninfected juveniles. Following co-housing with virus-positive adults, juveniles were serially evaluated for viral infection.ResultsHorizontal viral transmission was rapid and absolute, reaching 100% penetrance between 19 and 78 weeks.ConclusionsThis study provides insights into viral natural histories with implications for colony management and modeling vaccine-mediated immune protection studies.

Published

2023

2. Efficient production of inhibitor-free foamy virus glycoprotein-containing retroviral vectors by proteoglycan-deficient packaging cells

Author

Clara Marie Munz, Henriette Kreher, Alexander Erdbeer, Stefanie Richter, Dana Westphal, Buqing Yi, Rayk Behrendt, Nicole Stanke, Fabian Lindel, and Dirk Lindemann

Subjects

retrovirus, spumavirus, foamy virus, retroviral vector, pseudotyping, viral glycoprotein, Genetics, QH426-470, Cytology, QH573-671

Abstract

Foamy viruses (FVs) or heterologous retroviruses pseudotyped with FV glycoprotein enable transduction of a great variety of target tissues of disparate species. Specific cellular entry receptors responsible for this exceptionally broad tropism await their identification. Though, ubiquitously expressed heparan sulfate proteoglycan (HS-PG) is known to serve as an attachment factor of FV envelope (Env)-containing virus particles, greatly enhancing target cell permissiveness. Production of high-titer, FV Env-containing retroviral vectors is strongly dependent on the use of cationic polymer-based transfection reagents like polyethyleneimine (PEI). We identified packaging cell-surface HS-PG expression to be responsible for this requirement. Efficient release of FV Env-containing virus particles necessitates neutralization of HS-PG binding sites by PEI. Remarkably, remnants of PEI in FV Env-containing vector supernatants, which are not easily removable, negatively impact target cell transduction, in particular those of myeloid and lymphoid origin. To overcome this limitation for production of FV Env-containing retrovirus supernatants, we generated 293T-based packaging cell lines devoid of HS-PG by genome engineering. This enabled, for the first, time production of inhibitor-free, high-titer FV Env-containing virus supernatants by non-cationic polymer-mediated transfection. Depending on the type of virus, produced titers were 2- to 10-fold higher compared with those obtained by PEI transfection.

Published

2022

3. Feline foamy virus adversely affects feline mesenchymal stem cell culture and expansion: implications for animal model development.

Author

Walker, Naomi, Wood, Joshua, Clark, Kaitlin, Verstraete, Frank, Arzi, Boaz, Murphy, Brian, Borjesson, Dori, and Kol, Amir

Subjects

Animals, Cats, Cells, Cultured, Disease Models, Animal, Mesenchymal Stem Cells, Primary Cell Culture, Spumavirus

Abstract

Mesenchymal stem cells (MSCs) are a promising therapeutic option for various immune-mediated and inflammatory disorders due to their potent immunomodulatory and trophic properties. Naturally occurring diseases in large animal species may serve as surrogate animal models of human disease, as they may better reflect the complex genetic, environmental, and physiologic variation present in outbred populations. We work with naturally occurring diseases in large animal species to better understand how MSCs work and to facilitate optimal translation of MSC-based therapies. We are investigating the use of MSC therapy for a chronic oral inflammatory disease in cats. During our efforts to expand fat-derived feline MSCs (fMSCs), we observed that∼50% of the cell lines developed giant foamy multinucleated cells in later passages. These morphologic alterations were associated with proliferation arrest. We hypothesized that the cytopathic effects were caused by infection with a retrovirus, feline foamy virus (FFV). Using transmission electron microscopy, polymerase chain reaction, and in vitro assays, we determined that syncytial cell formation and proliferation arrest in fMSCs were caused by FFV strains that were highly homologous to previously reported FFV strains. We determined that the antiretroviral drug, tenofovir, may be used to support ex vivo expansion and salvage of FFV-infected fMSC lines. MSC lines derived from specific pathogen-free cats do not appear to be infected with FFV and may be a source of allogeneic fMSCs for clinical application. FFV infection of fMSC lines may hinder large-scale expansion of autologous MSC for therapeutic use in feline patients.

Published

2015

4. Feline Foamy Virus Adversely Affects Feline Mesenchymal Stem Cell Culture and Expansion: Implications for Animal Model Development

Author

Arzi, Boaz, Kol, Amir, Murphy, Brian, Walker, Naomi J, Wood, Joshua A, Clark, Kaitlin, Verstraete, Frank JM, and Borjesson, Dori L

Subjects

Regenerative Medicine, Digestive Diseases, Infectious Diseases, Transplantation, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Aetiology, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, 2.1 Biological and endogenous factors, Infection, Animals, Cats, Cells, Cultured, Disease Models, Animal, Mesenchymal Stem Cells, Primary Cell Culture, Spumavirus, Biological Sciences, Technology, Medical and Health Sciences, Developmental Biology, Immunology

Abstract

Mesenchymal stem cells (MSCs) are a promising therapeutic option for various immune-mediated and inflammatory disorders due to their potent immunomodulatory and trophic properties. Naturally occurring diseases in large animal species may serve as surrogate animal models of human disease, as they may better reflect the complex genetic, environmental, and physiologic variation present in outbred populations. We work with naturally occurring diseases in large animal species to better understand how MSCs work and to facilitate optimal translation of MSC-based therapies. We are investigating the use of MSC therapy for a chronic oral inflammatory disease in cats. During our efforts to expand fat-derived feline MSCs (fMSCs), we observed that∼50% of the cell lines developed giant foamy multinucleated cells in later passages. These morphologic alterations were associated with proliferation arrest. We hypothesized that the cytopathic effects were caused by infection with a retrovirus, feline foamy virus (FFV). Using transmission electron microscopy, polymerase chain reaction, and in vitro assays, we determined that syncytial cell formation and proliferation arrest in fMSCs were caused by FFV strains that were highly homologous to previously reported FFV strains. We determined that the antiretroviral drug, tenofovir, may be used to support ex vivo expansion and salvage of FFV-infected fMSC lines. MSC lines derived from specific pathogen-free cats do not appear to be infected with FFV and may be a source of allogeneic fMSCs for clinical application. FFV infection of fMSC lines may hinder large-scale expansion of autologous MSC for therapeutic use in feline patients.

Published

2015

5. Oligomerization of Retrovirus Integrases

Author

Grandgenett, Duane P., Aihara, Hideki, Harris, J. Robin, Series Editor, and Bhella, David, editor

Published

2018

6. Directed DNA shuffling of retrovirus and retrotransposon integrase protein domains.

Author

Qi, Xiaojie, Vargas, Edwin, Larsen, Liza, Knapp, Whitney, Hatfield, G Wesley, Lathrop, Richard, and Sandmeyer, Suzanne

Subjects

HIV-1, Spumavirus, Integrases, RNA-Directed DNA Polymerase, Saccharomyces cerevisiae Proteins, Recombinant Fusion Proteins, Oligonucleotides, Directed Molecular Evolution, Protein Engineering, Sequence Alignment, Amino Acid Sequence, Base Sequence, Substrate Specificity, Gene Library, Molecular Sequence Data, Genetics, Biotechnology, General Science & Technology

Abstract

Chimeric proteins are used to study protein domain functions and to recombine protein domains for novel or optimal functions. We used a library of chimeric integrase proteins to study DNA integration specificity. The library was constructed using a directed shuffling method that we adapted from fusion PCR. This method easily and accurately shuffles multiple DNA gene sequences simultaneously at specific base-pair positions, such as protein domain boundaries. It produced all 27 properly-ordered combinations of the amino-terminal, catalytic core, and carboxyl-terminal domains of the integrase gene from human immunodeficiency virus, prototype foamy virus, and Saccharomyces cerevisiae retrotransposon Ty3. Retrotransposons can display dramatic position-specific integration specificity compared to retroviruses. The yeast retrotransposon Ty3 integrase interacts with RNA polymerase III transcription factors to target integration at the transcription initiation site. In vitro assays of the native and chimeric proteins showed that human immunodeficiency virus integrase was active with heterologous substrates, whereas prototype foamy virus and Ty3 integrases were not. This observation was consistent with a lower substrate specificity for human immunodeficiency virus integrase than for other retrovirus integrases. All eight chimeras containing the Ty3 integrase carboxyl-terminal domain, a candidate targeting domain, failed to target strand transfer in the presence of the targeting protein, suggesting that multiple domains of the Ty3 integrase cooperate in this function.

Published

2013

7. Investigating Viruses in Cells Used to Make Vaccines; and Evaluating the Potential Threat Posed by Transmission of Viruses to Humans.

Subjects

DNA virus diseases, MALIGNANT hyperthermia, AIDS, VIRUS diseases, ONCOGENIC DNA viruses, GENETIC vectors, HEPATITIS B vaccines, BACTERIAL vaccines

Abstract

This article discusses the investigation of viruses in cells used for vaccine production and the potential risks associated with virus transmission to humans. The laboratory is working on methods to detect and activate latent viruses in cell lines, as well as studying the biological processes that indicate virus activity. The article also mentions the evaluation of retrovirus infections in humans and the study of simian foamy viruses and their potential interactions with HIV-1. The goal is to ensure the safety and effectiveness of vaccines and develop guidelines for vaccine production and blood donation. The document is a list of scientific research articles covering various topics in virology and biotechnology, providing valuable information for researchers and professionals in the field. [Extracted from the article]

Published

2024

8. Investigating Viruses in Cells Used to Make Vaccines; and Evaluating the Potential Threat Posed by Transmission of Viruses to Humans.

Subjects

DNA virus diseases, VIRUS diseases, ONCOGENIC viruses, ENDOGENOUS retroviruses, SEXUALLY transmitted diseases

Published

2024

9. Avian and serpentine endogenous foamy viruses, and new insights into the macroevolutionary history of foamy viruses.

Author

Aiewsakun, Pakorn

Subjects

MACROEVOLUTION, FOAMY viruses, ENDOGENOUS retroviruses, ORIENTAL stork, HOST-virus relationships, POULTRY viruses

Abstract

This study reports and characterises two novel distinct lineages of foamy viruses (FVs) in the forms of endogenous retroviruses (ERVs). Several closely related elements were found in the genome of oriental stork (Ciconia boyciana) and other was found in the genome of spine-bellied sea snake (Hydrophis hardwickii), designated ERV-Spuma.N-Cbo (where 'N' runs from one to thirteen) and ERV-Spuma.1-Hha, respectively. This discovery of avian and serpentine endogenous FVs adds snakes, and perhaps more crucially, birds to the list of currently known hosts of FVs, in addition to mammals, reptiles, amphibians, and fish. This indicates that FVs are, or at least were, capable of infecting all major lineages of vertebrates. Moreover, together with other FVs, phylogenetic analyses showed that both of them are most closely related to mammalian FVs. Further examination revealed that reptilian FVs form a deep paraphyletic group that is basal to mammalian and avian FVs, suggesting that there were multiple ancient FV cross-class transmissions among their hosts. Evolutionary timescales of various FV lineages were estimated in this study, in particular, the timescales of reptilian FVs and that of the clade of mammalian, avian, and serpentine FVs. This was accomplished by using the recently established time-dependent rate phenomenon models, inferred using mainly the knowledge of the co-speciation history between FVs and mammals. It was found that the estimated timescales matched very well with those of reptiles. Combined with the observed phylogenetic patterns, these results suggested that FVs likely co-speciated with ancient reptilian animals, but later jumped to a protomammal and/or a bird, which ultimately gave rise to mammalian and avian FVs. These results contribute to our understanding of FV emergence, specifically the emergence of mammalian and avian FVs, and provide new insights into how FVs co-evolved with their non-mammalian vertebrate hosts in the distant past. [ABSTRACT FROM AUTHOR]

Published

2020

10. Molecular Epidemiology and Whole-Genome Analysis of Bovine Foamy Virus in Japan

Author

Hirohisa Mekata, Tomohiro Okagawa, Satoru Konnai, and Takayuki Miyazawa

Subjects

genotype, Japan, phylogeny, prevalence, spumavirus, Microbiology, QR1-502

Abstract

Bovine foamy virus (BFV) is a member of the foamy virus family in cattle. Information on the epidemiology, transmission routes, and whole-genome sequences of BFV is still limited. To understand the characteristics of BFV, this study included a molecular survey in Japan and the determination of the whole-genome sequences of 30 BFV isolates. A total of 30 (3.4%, 30/884) cattle were infected with BFV according to PCR analysis. Cattle less than 48 months old were scarcely infected with this virus, and older animals had a significantly higher rate of infection. To reveal the possibility of vertical transmission, we additionally surveyed 77 pairs of dams and 3-month-old calves in a farm already confirmed to have BFV. We confirmed that one of the calves born from a dam with BFV was infected. Phylogenetic analyses revealed that a novel genotype was spread in Japan. In conclusion, the prevalence of BFV in Japan is relatively low and three genotypes, including a novel genotype, are spread in Japan.

Published

2021

11. The Unique, the Known, and the Unknown of Spumaretrovirus Assembly

Author

Dirk Lindemann, Sylvia Hütter, Guochao Wei, and Martin Löchelt

Subjects

foamy virus, spumavirus, assembly, Env leader protein, particle budding, Pol protein packaging, Microbiology, QR1-502

Abstract

Within the family of Retroviridae, foamy viruses (FVs) are unique and unconventional with respect to many aspects in their molecular biology, including assembly and release of enveloped viral particles. Both components of the minimal assembly and release machinery, Gag and Env, display significant differences in their molecular structures and functions compared to the other retroviruses. This led to the placement of FVs into a separate subfamily, the Spumaretrovirinae. Here, we describe the molecular differences in FV Gag and Env, as well as Pol, which is translated as a separate protein and not in an orthoretroviral manner as a Gag-Pol fusion protein. This feature further complicates FV assembly since a specialized Pol encapsidation strategy via a tripartite Gag-genome–Pol complex is used. We try to relate the different features and specific interaction patterns of the FV Gag, Pol, and Env proteins in order to develop a comprehensive and dynamic picture of particle assembly and release, but also other features that are indirectly affected. Since FVs are at the root of the retrovirus tree, we aim at dissecting the unique/specialized features from those shared among the Spuma- and Orthoretrovirinae. Such analyses may shed light on the evolution and characteristics of virus envelopment since related viruses within the Ortervirales, for instance LTR retrotransposons, are characterized by different levels of envelopment, thus affecting the capacity for intercellular transmission.

Published

2021

12. Inhibition of cell proliferation by Tas of foamy viruses through cell cycle arrest or apoptosis underlines the different mechanisms of virus–host interactions

Author

Wei, Jie, Zhang, Rui-Fen, Hu, Zhong-Xiang, Wu, Yan, Liu, Wei-Na, Ma, Yong-Ping, Song, Jing, Chen, Jing-Yi, Liu, Wan-Hong, He, Xiao-Hua, Li, Zhi, and Sun, Yan

Subjects

Microbiology (medical), foamy virus, Host Microbial Interactions, Immunology, apoptosis, Cell Cycle Checkpoints, Infectious and parasitic diseases, RC109-216, Microbiology, Cell Line, cell proliferation, Infectious Diseases, cell cycle arrest, ppm1e, foxo3, Spumavirus, Parasitology, transactivator

Abstract

Foamy viruses belong to the Spumaretrovirinae subfamily member of the Retroviridae family and produce nonpathogenic infection to hosts in the natural conditions. However, infections of foamy viruses can dramatically cause severe cytopathic effects in vitro. To date, the exact molecular mechanism has remained unclear which implied the tremendous importance of virus-host cell immune reactions. In this study, we found that the transactivator Tas in two foamy viruses isolated from Old World Monkey (OWM) induced obvious inhibition of cell proliferation via the upregulation of Foxo3a expression. It was mediated by the generation of ROS and the initiation of ER stress, and ultimately, the mitochondrial apoptosis pathway was triggered. Notably, PFV Tas contributed to the accumulation of G0/G1 phase cycle arrest induced by the activation of the p53 signaling pathway and the nuclear transportation of HDAC4 via upregulating PPM1E expression. Together, these results demonstrated the different survival strategies by which foamy virus can hijack host cell cytokines and regulate virus-host cell interactions.

Published

2022

13. Genetic and biological characterization of feline foamy virus isolated from a leopard cat (Prionailurus bengalensis) in Vietnam

Author

Aoi, Sumiyoshi, Koichi, Kitao, and Takayuki, Miyazawa

Subjects

feline foamy virus, domestic cat, Vietnam, Cats, leopard cat, Animals, Spumavirus, Amino Acid Sequence, inter-species transmission, infectious molecular clone, Phylogeny

Abstract

Foamy viruses have been isolated from various mammals and show long-term co-speciation with their hosts. However, the frequent inter-species transmission of feline foamy viruses (FFVs) from domestic cats to wild cats across genera has been reported. Because infectious molecular clones of FFVs derived from wild cats have not been available, whether there are specific characteristics enabling FFVs to adapt to the new host species is still unknown. Here, we obtained the complete genome sequences of two FFV isolates (strains NV138 and SV201) from leopard cats (Prionailurus bengalensis) in Vietnam and constructed an infectious molecular clone, named pLC960, from strain NV138. The growth kinetics of the virus derived from pLC960 were comparable to those of other FFVs derived from domestic cats. Phylogenetic analysis revealed that these two FFVs from leopard cats are clustered in the same clade as FFVs from domestic cats in Vietnam. Comparisons of the amino acid sequences of Env and Bet proteins showed more than 97% identity among samples and no specific amino acid substitutions between FFVs from domestic cats and ones from leopard cats. These results indicate the absence of genetic constraint of FFVs for interspecies transmission from domestic cats to leopard cats.

Published

2022

14. Trim28 acts as restriction factor of prototype foamy virus replication by modulating H3K9me3 marks and destabilizing the viral transactivator Tas

Author

Peipei Yuan, Jun Yan, Shuang Wang, Yang Guo, Xueyan Xi, Song Han, Jun Yin, Biwen Peng, Xiaohua He, Jochen Bodem, and Wanhong Liu

Subjects

animal structures, Research, LTR, Terminal Repeat Sequences, Tripartite Motif-Containing Protein 28, RC581-607, Virus Replication, Cell Line, H3K9me3, Histones, Prototype foamy virus (PFV), Infectious Diseases, Virology, Trans-Activators, Trim28, Humans, Spumavirus, Tas, Immunologic diseases. Allergy

Abstract

Background Prototype foamy virus (PFV) is nonpathogenic complex retroviruses that express a transcriptional transactivator Tas, which is essential for the activity of viral long terminal repeat (LTR) promoter and internal promoter (IP). Tripartite motif-containing protein 28 (Trim28) is well known as a scaffold protein normally enriched in gene promoter region to repress transcription. We sought to determine if whether Trim28 could be enriched in PFV promoter region to participate the establishment of PFV latency infection. Results In this study, we show that Trim28 restricts Tas-dependent transactivation activity of PFV promoter and negatively regulates PFV replication. Trim28 was found to be enriched in LTR instead of IP promoter regions of PFV genome and contribute to the maintenance of histone H3K9me3 marks on the LTR promoter. Furthermore, Trim28 interacts with Tas and colocalizes with Tas in the nucleus. Besides, we found that Trim28, an E3 ubiquitin ligase, binds directly to and promotes Tas for ubiquitination and degradation. And the RBCC domain of Trim28 is required for the ubiquitination and degradation of Tas. Conclusions Collectively, our findings not only identify a host factor Trim28 negatively inhibits PFV replication by acting as transcriptional restriction factor enriched in viral LTR promoter through modulating H3K9me3 mark here, but also reveal that Trim28 mediated ubiquitin proteasome degradation of Tas as a mechanism underlying Trim28 restricts Tas-dependent transcription activity of PFV promoter and PFV replication. These findings provide new insights into the process of PFV latency establishment. Graphical Abstract

Published

2021

15. Spumavirus : Retroviridae, Spumaretrovirinae

Author

Flügel, Rolf M., Tidona, Christian, editor, and Darai, Gholamreza, editor

Published

2011

16. Spumaretroviruses: Updated taxonomy and nomenclature.

Author

Khan, Arifa S., Bodem, Jochen, Buseyne, Florence, Gessain, Antoine, Johnson, Welkin, Kuhn, Jens H., Kuzmak, Jacek, Lindemann, Dirk, Linial, Maxine L., Löchelt, Martin, Materniak-Kornas, Magdalena, Soares, Marcelo A., and Switzer, William M.

Subjects

*FOAMY viruses, *RETROVIRUSES, *TAXONOMY, *RHESUS monkeys, *VIROLOGY, *PHYSIOLOGY

Abstract

Spumaretroviruses, commonly referred to as foamy viruses, are complex retroviruses belonging to the subfamily Spumaretrovirinae, family Retroviridae , which naturally infect a variety of animals including nonhuman primates (NHPs). Additionally, cross-species transmissions of simian foamy viruses (SFVs) to humans have occurred following exposure to tissues of infected NHPs. Recent research has led to the identification of previously unknown exogenous foamy viruses, and to the discovery of endogenous spumaretrovirus sequences in a variety of host genomes. Here, we describe an updated spumaretrovirus taxonomy that has been recently accepted by the International Committee on Taxonomy of Viruses (ICTV) Executive Committee, and describe a virus nomenclature that is generally consistent with that used for other retroviruses, such as lentiviruses and deltaretroviruses. This taxonomy can be applied to distinguish different, but closely related, primate (e.g., human, ape, simian) foamy viruses as well as those from other hosts. This proposal accounts for host-virus co-speciation and cross-species transmission. [ABSTRACT FROM AUTHOR]

Published

2018

17. The Regulation of Prototype Foamy Virus 5′Long Terminal Repeats and Internal Promoter by Endogenous Transcription Factors

Author

Yan Sun, Xiaohua He, Wanhong Liu, Jie Wei, Zhi Li, Gui Zhu, and Ting-ting Wang

Subjects

foamy virus, Specialties of internal medicine, activator protein-1, Endogeny, Spike protein, Biology, Cell Line, Epitopes, Transactivation, Transcription (biology), Virology, tas, Severe acute respiratory syndrome coronavirus 2, Promoter Regions, Genetic, Transcription factor, Reporter gene, Activator (genetics), Terminal Repeat Sequences, Promoter, Neutralizing antibody, Long terminal repeat, Cell biology, Infectious Diseases, RC581-951, bcl2-associated athanogene 3, Spumavirus, viral promoters, Transcription Factors, Research Article

Abstract

Background: For foamy virus, the transactivator of spumaretrovirus (Tas) could bind directly to target DNA sequences termed as Tas responsive elements and trigger the viral internal promoter (IP) and long terminal repeat (LTR) promoters. The cellular endogenous factors also play an important role in viral gene expressions. We hypothesized that except the viral transcription factor Tas, the cellular endogenous factors also affect the viral gene expression. Methods: The full length of the prototype foamy virus (PFV) genome (U21247) was used to predict the potential binding sites of the transcription factors by online software JASPAR (http://jaspar.genereg.net) and Softberry (http://linux1.softberry.com/berry.phtml?topic=index&group=programs&subgroup=promoter). The Dual-Luciferase® Reporter Assay System (Promega, USA) was used to confirm the relative luciferase activities of the test groups. The different representative activating agents or inhibitors of each canonical signal pathway were used to identify the impact of these pathways on PFV 5′LTR and IP promoters. Results: The results showed different cellular endogenous factors might have respective effects on PFV 5′LTR and IP. It is worth mentioning that activator protein-1 and BCL2-associated athanogene 3, 2 kinds of vital proteins associated with NF-κB and PKC pathways, could activate the basal activity of 5′LTR and IP promoters but inhibit the Tas-regulated activity of both promoters. Furthermore, PFV Tas was identified to trigger the transcription of the NF-κB promoter. Conclusion: NF-κB had a negative effect on PFV 5′LTR and IP promoter activities, the PKC pathway might upregulate 5′LTR and IP promoter activities, and the JNK and NF-AT signal pathway could increase the Tas-regulated promoter activity of PFV 5′LTR. This study sheds light on the interaction between PFV and the host cell and may help utilize the viral promoters in retroviral vectors designed for gene transfer experiments.

Published

2021

18. Longitudinal study of the immune response and memory following natural bovine respiratory syncytial virus infections in cattle of different age

Author

Hägglund, Sara, Näslund, Katarina, Svensson, Anna, Lefverman, Cecilia, Enül, Hakan, Pascal, Leonore, Siltenius, Jari, Holzhauer, Menno, Delabouglise, Alexis, Österberg, Julia, Alvåsen, Karin, Olsson, Ulf, Eléouët, Jean-François, Riffault, Sabine, Taylor, Geraldine, Rodriguez, María Jose, Garcia Duran, Marga, Valarcher, Jean-François, Hägglund, Sara, Näslund, Katarina, Svensson, Anna, Lefverman, Cecilia, Enül, Hakan, Pascal, Leonore, Siltenius, Jari, Holzhauer, Menno, Delabouglise, Alexis, Österberg, Julia, Alvåsen, Karin, Olsson, Ulf, Eléouët, Jean-François, Riffault, Sabine, Taylor, Geraldine, Rodriguez, María Jose, Garcia Duran, Marga, and Valarcher, Jean-François

Abstract

Human and bovine respiratory syncytial virus (HRSV and BRSV) are closely genetically related and cause respiratory disease in their respective host. Whereas HRSV vaccines are still under development, a multitude of BRSV vaccines are used to reduce clinical signs. To enable the design of vaccination protocols to entirely stop virus circulation, we aimed to investigate the duration, character and efficacy of the immune responses induced by natural infections. The systemic humoral immunity was monitored every two months during two years in 33 dairy cattle in different age cohorts following a natural BRSV outbreak, and again in selected individuals before and after a second outbreak, four years later. Local humoral and systemic cellular responses were also monitored, although less extensively. Based on clinical observations and economic losses linked to decreased milk production, the outbreaks were classified as moderate. Following the first outbreak, most but not all animals developed neutralising antibody responses, BRSV-specific IgG1, IgG2 and HRSV F- and HRSV N-reactive responses that lasted at least two years, and in some cases at least four years. In contrast, no systemic T cell responses were detected and only weak IgA responses were detected in some animals. Seronegative sentinels remained negative, inferring that no new infections occurred between the outbreaks. During the second outbreak, reinfections with clinical signs and virus shedding occurred, but the signs were milder, and the virus shedding was significantly lower than in naïve animals. Whereas the primary infection induced similar antibody titres against the prefusion and the post fusion form of the BRSV F protein, memory responses were significantly stronger against prefusion F. In conclusion, even if natural infections induce a long-lasting immunity, it would probably be necessary to boost memory responses between outbreaks, to stop the circulation of the virus and limit the potential role of previo

Published

2022

19. Antiviral role of IFITM3 in prototype foamy virus infection

Author

Zhaohuan Wang, Xiaopeng Tuo, Junshi Zhang, Keli Chai, Juan Tan, and Wentao Qiao

Subjects

Infectious Diseases, Virus Diseases, Virology, Humans, Spumavirus, Membrane Proteins, RNA-Binding Proteins, Virus Replication, Antiviral Agents, Cell Line

Abstract

Background Foamy viruses (FVs) are retroviruses with unique replication strategies that cause lifelong latent infections in their hosts. FVs can also produce foam-like cytopathic effects in vitro. However, the effect of host cytokines on FV replication requires further investigation. Although interferon induced transmembrane (IFITMs) proteins have become the focus of antiviral immune response research due to their broad-spectrum antiviral ability, it remains unclear whether IFITMs can affect FV replication. Method In this study, the PFV virus titer was characterized by measuring luciferase activity after co-incubation of PFVL cell lines with the cell culture supernatants (cell-free PFV) or the cells transfected with pcPFV plasmid/infected with PFV (cell-associated PFV). The foam-like cytopathic effects of PFV infected cells was observed to reflect the virus replication. The total RNA of PFV infected cells was extracted, and the viral genome was quantified by Quantitative reverse transcription PCR to detect the PFV entry into target cells. Results In the present study, we demonstrated that IFITM1-3 overexpression inhibited prototype foamy virus (PFV) replication. In addition, an IFITM3 knockdown by small interfering RNA increased PFV replication. We further demonstrated that IFITM3 inhibited PFV entry into host cells. Moreover, IFITM3 also reduced the number of PFV envelope proteins, which was related to IFITM3 promoted envelope degradation through the lysosomal pathway. Conclusions Taken together, these results demonstrate that IFITM3 inhibits PFV replication by inhibiting PFV entry into target cells and reducing the number of PFV envelope.

Published

2022

20. Occurrence of Equine Foamy Virus Infection in Horses from Poland

Author

Magdalena Materniak-Kornas, Wojciech Rożek, Jerzy Rola, Zbigniew Osiński, Martin Löchelt, and Jacek Kuźmak

Subjects

Infectious Diseases, Virus Diseases, Virology, Cats, Animals, Gene Products, gag, Spumavirus, Bayes Theorem, Horse Diseases, Horses, Poland, equine foamy virus, horses, diagnostics, ELISA, PCR, prevalence

Abstract

Equine foamy virus (EFVeca) is a foamy virus of non-primate origin and among the least-studied members of this retroviral subfamily. By sequence comparison, EFVeca shows the highest similarity to bovine foamy virus. In contrast to simian, bovine or feline foamy viruses, knowledge about the epidemiology of EFVeca is still limited. Since preliminary studies suggested EFVeca infections among horses in Poland, we aimed to expand the diagnostics of EFVeca infections by developing specific diagnostic tools and apply them to investigate its prevalence. An ELISA test based on recombinant EFVeca Gag protein was developed for serological investigation, while semi-nested PCR for the detection of EFVeca DNA was established. 248 DNA and serum samples from purebred horses, livestock and saddle horses, Hucul horses and semi-feral Polish primitive horses were analyzed in this study. ELISA was standardized, and cut off value, sensitivity and specificity of the test were calculated using Receiver Operating Characteristic and Bayesian estimation. Based on the calculated cut off, 135 horses were seropositive to EFVeca Gag protein, while EFVeca proviral DNA was detected in 85 animals. The rate of infected individuals varied among the horse groups studied; this is the first report confirming the existence of EFVeca infections in horses from Poland using virus-specific tools.

Published

2022

21. Eco-Epidemiological Profile and Molecular Characterization of Simian Foamy Virus in a Recently-Captured Invasive Population of Leontopithecus chrysomelas (Golden-Headed Lion Tamarin) in Rio de Janeiro, Brazil

Author

Thamiris S. Miranda, Cláudia P. Muniz, Silvia B. Moreira, Marina G. Bueno, Maria Cecília M. Kierulff, Camila V. Molina, José L. Catão-Dias, Alcides Pissinatti, Marcelo A. Soares, and André F. Santos

Subjects

spumavirus, viral prevalence, epidemiology, neotropical primates, free-living primates, brazil, Microbiology, QR1-502

Abstract

Simian foamy viruses (SFV) infect a wide range of Old World and Neotropical primates (NP). Unlike Old World primates, little is known about the diversity and prevalence of SFV in NP, mainly from a free-living population. Phylogenetic analyses have shown that SFV coevolved with their hosts. However, viral strains infecting Leontopithecus chrysomelas did not behave as expected for this hypothesis. The purpose of this study was to determine the eco-epidemiological profile and molecular characterization of SFV in a recently captured invasive population of L. chrysomelas located in Niteroi/RJ using buccal swab as an alternative collection method. A prevalence of 34.8% (32/92) and a mean viral load of 4.7 log copies of SFV/106 cells were observed. With respect to time since capture, SFV prevalence was significantly higher in the group of animals sampled over 6 months after capture (55.2%) than in those more recently captured (25.4%) (p = 0.005). Infected solitary animals can contribute to SFV transmission between different groups in the population. SFV strains formed two distinct clades within the SFV infecting the Cebidae family. This is the first study to use buccal swabs as a tool to study SFV diversity and prevalence in a recently free-living NP population upon recent capture.

Published

2019

22. Feline Foamy Virus Infection: Characterization of Experimental Infection and Prevalence of Natural Infection in Domestic Cats with and without Chronic Kidney Disease

Author

Carmen Ledesma-Feliciano, Ryan M. Troyer, Xin Zheng, Craig Miller, Rachel Cianciolo, Matteo Bordicchia, Nicholas Dannemiller, Roderick Gagne, Julia Beatty, Jessica Quimby, Martin Löchelt, and Sue VandeWoude

Subjects

foamy virus, spumavirus, retrovirus, viral tropism, infection, kidney, cats, chronic kidney disease, chronic renal disease, Microbiology, QR1-502

Abstract

Foamy viruses (FVs) are globally prevalent retroviruses that establish apparently apathogenic lifelong infections. Feline FV (FFV) has been isolated from domestic cats with concurrent diseases, including urinary syndromes. We experimentally infected five cats with FFV to study viral kinetics and tropism, peripheral blood mononuclear cell (PBMC) phenotype, urinary parameters, and histopathology. A persistent infection of primarily lymphoid tropism was detected with no evidence of immunological or hematologic perturbations. One cat with a significant negative correlation between lymphocytes and PBMC proviral load displayed an expanded FFV tissue tropism. Significantly increased blood urea nitrogen and ultrastructural kidney changes were noted in all experimentally infected cats, though chemistry parameters were not outside of normal ranges. Histopathological changes were observed in the brain, large intestine, and other tissues. In order to determine if there is an association of FFV with Chronic Kidney Disease, we additionally screened 125 Australian pet cats with and without CKD for FFV infection and found that FFV is highly prevalent in older cats, particularly in males with CKD, though this difference was not statistically significant compared to controls. Acute FFV infection was clinically silent, and while some measures indicated mild changes, there was no overt association of FFV infection with renal disease.

Published

2019

23. The First Co-Opted Endogenous Foamy Viruses and the Evolutionary History of Reptilian Foamy Viruses

Author

Pakorn Aiewsakun, Peter Simmonds, and Aris Katzourakis

Subjects

foamy virus, spumavirus, reptile foamy virus, endogenous foamy virus, endogenous retrovirus, ancient retroviruses, co-evolution, co-speciation, foamy virus-host interactions, Microbiology, QR1-502

Abstract

A recent study reported the discovery of an endogenous reptilian foamy virus (FV), termed ERV-Spuma-Spu, found in the genome of tuatara. Here, we report two novel reptilian foamy viruses also identified as endogenous FVs (EFVs) in the genomes of panther gecko (ERV-Spuma-Ppi) and Schlegel’s Japanese gecko (ERV-Spuma-Gja). Their presence indicates that FVs are capable of infecting reptiles in addition to mammals, amphibians, and fish. Numerous copies of full length ERV-Spuma-Spu elements were found in the tuatara genome littered with in-frame stop codons and transposable elements, suggesting that they are indeed endogenous and are not functional. ERV-Spuma-Ppi and ERV-Spuma-Gja, on the other hand, consist solely of a foamy virus-like env gene. Examination of host flanking sequences revealed that they are orthologous, and despite being more than 96 million years old, their env reading frames are fully coding competent with evidence for strong purifying selection to maintain expression and for them likely being transcriptionally active. These make them the oldest EFVs discovered thus far and the first documented EFVs that may have been co-opted for potential cellular functions. Phylogenetic analyses revealed a complex virus−host co-evolutionary history and cross-species transmission routes of ancient FVs.

Published

2019

24. Clinical and Molecular Features of Feline Foamy Virus and Feline Leukemia Virus Co-Infection in Naturally-Infected Cats

Author

Liliane T. F. Cavalcante, Cláudia P. Muniz, Hongwei Jia, Anderson M. Augusto, Fernando Troccoli, Sheila de O. Medeiros, Carlos G. A. Dias, William M. Switzer, Marcelo A. Soares, and André F. Santos

Subjects

spumavirus, feline illness, proviral load, neglected virus, Microbiology, QR1-502

Abstract

Feline foamy virus (FFV) and feline leukemia virus (FeLV) belong to the Retroviridae family. While disease has not been reported for FFV infection, FeLV infection can cause anemia and immunosuppression (progressive infection). Co-infection with FFV/FeLV allows evaluation of the pathogenic potential and epidemiology of FFV infection in cats with FeLV pathology. Blood and buccal swab samples from 81 cats were collected in Rio de Janeiro. Plasma was serologically tested for FeLV. DNA extracted from peripheral blood mononuclear cells and buccal swabs was used to PCR detect FFV and FeLV. A qPCR was developed to detect and measure FFV proviral loads (pVLs) in cats. FeLV qPCR was performed using previous methods. The median log10 pVL of FFV mono-infected individuals was lower than found in FFV/FeLV co-infected cats in buccal swabs (p = 0.003). We found 78% of cats had detectable buccal FFV DNA in FFV mono-infected and FFV co-infected FeLV-progressive cats, while in FeLV-regressive cats (those without signs of disease) 22% of cats had detectable buccal FFV DNA (p = 0.004). Our results suggest that regressive FeLV infection may reduce FFV saliva transmission, the main mode of FV transmission. We did not find evidence of differences in pathogenicity in FFV mono- and -dually infected cats. In summary, we show that FVs may interact with FeLV within the same host. Our study supports the utility of cats naturally co-infected with retroviruses as a model to investigate the impact of FV on immunocompromised mammalian hosts.

Published

2018

25. Molecular characterization of bovine foamy virus and its association with bovine leukemia virus infection in Vietnamese cattle

Author

Vuong Nghia Bui, Kunitoshi Imai, Son Vu Nguyen, Nanako Yamashita-Kawanishi, Haruko Ogawa, Mari Okamoto, Takeshi Haga, Tung Duy Dao, and Dung Thi Le

Subjects

viruses, Vietnamese, bovine leukemia virus (BLV), Cattle Diseases, chemistry.chemical_compound, Asian People, Virology, Leukemia Virus, Bovine, Animals, Humans, Clade, Gene, Phylogeny, General Veterinary, Bovine leukemia virus, biology, Phylogenetic tree, bovine foamy virus (BFV), Nucleic acid sequence, Enzootic Bovine Leukosis, Note, biology.organism_classification, language.human_language, Vietnam, chemistry, cattle, language, Spumavirus, Nested polymerase chain reaction, DNA

Abstract

The detection of bovine foamy virus (BFV) in Vietnamese cattle was performed using conventional PCR targeting pol and gag genes. Out of 243 tested samples, ten (4.1%) and eight (3.3%) samples were positive for BFV gag and pol DNA, respectively. The prevalence of bovine leukemia virus (BLV) estimated by detection of proviral DNA using nested PCR targeting env gene was 26.7% (65/243). The results of nucleotide sequence alignment and the phylogenetic analysis suggested that Vietnamese BFV strains showed high homology to isolates belonging to either European or non-European clades. There was no significant correlation between BLV and BFV. This study provides information regarding BFV infection and confirms the existence of two BFV clades among Vietnamese cattle for the first time.

Published

2021

26. Spumavirus : Retroviridae

Author

Flügel, Rolf M., Tidona, Christian A., editor, Darai, Gholamreza, editor, and Büchen-Osmond, Cornelia, editor

Published

2001

27. SGK1, a Serine/Threonine Kinase, Inhibits Prototype Foamy Virus Replication

Author

Junshi Zhang, Chunhua Han, Zhenjie Xiong, Manman Qiu, Xiaopeng Tuo, Chenchen Wang, Wentao Qiao, and Juan Tan

Subjects

Microbiology (medical), General Immunology and Microbiology, Ecology, Physiology, viruses, Proteins, Cell Biology, Protein Serine-Threonine Kinases, Virus Replication, Antiviral Agents, Infectious Diseases, Genetics, Serine, Animals, Spumavirus

Abstract

Foamy viruses can integrate into the host chromosome and are nonpathogenic in natural hosts or in experimentally infected animals. Therefore, foamy viruses are considered to be safe and efficient gene transfer vectors.

Published

2022

28. Genomic characterization and distribution of bovine foamy virus in Japan

Author

Keisuke Oguma, Maiko Endo, Toshihiro Ichijo, Maya Ishikawa, Nanako Yamashita-Kawanishi, Takeshi Haga, Mari Okamoto, and Shinichi Hatama

Subjects

040301 veterinary sciences, viruses, Bovine foamy virus, Cattle Diseases, Clinical manifestation, medicine.disease_cause, Virus, 0403 veterinary science, 03 medical and health sciences, Japan, Virology, Leukemia Virus, Bovine, medicine, Animals, Phylogeny, 030304 developmental biology, 0303 health sciences, Full Paper, General Veterinary, Phylogenetic tree, Bovine leukemia virus, biology, Strain (biology), Nucleic acid sequence, Genomics, bovine foamy virus, 04 agricultural and veterinary sciences, Enzootic Bovine Leukosis, biology.organism_classification, bovine leukemia virus, Superinfection, Spumavirus, Cattle, Female, epidemiology

Abstract

Bovine foamy virus (BFV) is distributed through worldwide cattle herds. Although the biological features of BFV are not well understood, appearance of clinical manifestation by superinfection with other microorganisms is inferred. In Japan, reports of genomic characterizations and epidemiology of this virus are limited. In this study, we performed whole genomic sequencing of BFV strains Ibaraki and No.43, which were isolated in this country. Additionally, we investigated BFV in geographically distant four daily farms in Japan, to estimate the distribution of BFV and its correlation to bovine leukemia virus (BLV). BFV was distributed throughout Japan; the average positive rate was 12.7%. The nucleotide sequence identities of the isolates were 99.6% when compared with BFV strain isolated in the USA. The phylogenetic tree using env gene sequence showed strains Ibaraki, No.43 and Kagoshima were sorted in the same cluster including the USA and Chinese strains, while Hokkaido strain was in the other cluster including European strains. Although no clear correlation between BFV and BLV could be found, BFV and BLV infections were likely to increase with ages. Our data on epidemiology and characteristics of BFV will provide important information to reveal biological features of BFV.

Published

2020

29. Persistent Infection of Simian Foamy Virus Derived from the Japanese Macaque Leads to the High-Level Expression of microRNA that Resembles the miR-1 microRNA Precursor Family

Author

Koichi Kitao, Takayuki Miyazawa, and Akira Hashimoto-Gotoh

Subjects

Untranslated region, miR-1 microRNA precursor family, Soil Science, Simian foamy virus, Cell Cycle Proteins, Plant Science, Biology, Chlorocebus aethiops, Cell Line, Macaca fuscata, 03 medical and health sciences, biology.animal, microRNA, Regular Paper, Animals, Humans, High level expression, adenylyl cyclase-associated protein 1, 3' Untranslated Regions, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, 030306 microbiology, General Medicine, biology.organism_classification, Virology, Long terminal repeat, Japanese macaque, MicroRNAs, Gene Expression Regulation, RNA, Viral, Spumavirus, African Green Monkey, simian foamy virus, Retroviridae Infections

Abstract

MicroRNAs (miRNAs) are a group of small non-coding RNAs that suppress the expression of target mRNAs. The seed sequence of miRNA plays a crucial role in recognizing the 3'-untranslated region of the target mRNA. Cells infected with a simian foamy virus (SFV) isolated from an African green monkey (Chlorocebus aethiops) (SFVcae) showed high expression levels of viral miRNAs encoded in the long terminal repeat of SFVcae. In the present study, we investigated the roles and expression of miRNAs derived from an SFV isolated from a Japanese macaque (Macaca fuscata) (SFVmfu) using next-generation sequencing technologies. The results obtained showed that SFVmfu also expressed viral miRNAs; however, the seed sequences of most miRNAs derived from SFVmfu differed from those reported previously from SFVcae. Cells persistently infected with SFVmfu strongly expressed an miRNA with the same seed sequence as the miR-1 microRNA precursor family. Luciferase reporter assays indicated that this miRNA down-regulates the expression of adenylyl cyclase-associated protein 1, which is up-regulated in several solid tumors. The present results suggest that SFVmfu utilizes viral miRNAs to establish long-term co-existence with the Japanese macaque.

Published

2020

30. Characterization of Bovine Foamy Virus Gag Late Assembly Domain Motifs and Their Role in Recruiting ESCRT for Budding

Author

Zhaohuan Wang, Rui Li, Chenxi Liu, Wentao Qiao, and Juan Tan

Subjects

Protein Transport, Infectious Diseases, Endosomal Sorting Complexes Required for Transport, Virology, Virus Assembly, Gene Products, gag, Humans, Spumavirus, macromolecular substances, bovine foamy virus, L domain, ESCRT, virus-like particles, Cell Line

Abstract

A large number of retroviruses, such as human immunodeficiency virus (HIV) and prototype foamy virus (PFV), recruit the endosomal sorting complex required for transport (ESCRT) through the late domain (L domain) on the Gag structural protein for virus budding. However, little is known about the molecular mechanism of bovine foamy virus (BFV) budding. In the present study, we report that BFV recruits ESCRT for budding through the L domain of Gag. Specifically, knockdown of VPS4 (encoding vacuolar protein sorting 4), ALIX (encoding ALG-2-interacting protein X), and TSG101 (encoding tumor susceptibility 101) indicated that BFV uses ESCRT for budding. Mutational analysis of BFV Gag (BGag) showed that, in contrast to the classical L domain motifs, BGag contains two motifs, P56LPI and Y103GPL, with L domain functions. In addition, the two L domains are necessary for the cytoplasmic localization of BGag, which is important for effective budding. Furthermore, we demonstrated that the functional site of Alix is V498 in the V domain and the functional site of Tsg101 is N69 in the UBC-like domain for BFV budding. Taken together, these results demonstrate that BFV recruits ESCRT for budding through the PLPI and YGPL L domain motifs in BGag.

Published

2022

31. Plasma antibodies from humans infected with zoonotic simian foamy virus do not inhibit cell-to-cell transmission of the virus despite binding to the surface of infected cells

Author

Mathilde Couteaudier, Thomas Montange, Richard Njouom, Chanceline Bilounga-Ndongo, Antoine Gessain, Florence Buseyne, Epidémiologie et Physiopathologie des Virus Oncogènes / Oncogenic Virus Epidemiology and Pathophysiology (EPVO (UMR_3569 / U-Pasteur_3)), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Centre Pasteur du Cameroun, Réseau International des Instituts Pasteur (RIIP), Ministère de la Santé Publique [Yaoundé, Cameroun], This work was supported by the Agence Nationale de la Recherche (REEMFOAMY project, ANR 15-CE-15-0008-01, A.G.), Institut Pasteur (PTR2020-353 ZOOFOAMENV, F.B.), and Agence Nationale de la Recherche (Grant Intra Labex, ANR-10-LABX62-IBEID, F.B.)., ANR-15-CE15-0008,REEMFOAMY,L'infection humaine par les virus foamy simiens zoonotiques : rôle des facteurs virologiques et immunologiques dans la restrcition de l'emergence virale(2015), and ANR-10-LABX-0062,IBEID,Integrative Biology of Emerging Infectious Diseases(2010)

Subjects

MESH: Humans, Gorilla gorilla, MESH: Gorilla gorilla, [SDV]Life Sciences [q-bio], Immunology, DNA Viruses, Hominidae, MESH: Simian foamy virus, Microbiology, MESH: DNA Viruses, Simian foamy virus, MESH: Hominidae, MESH: Retroviridae Infections, MESH: Spumavirus, Virology, Genetics, Animals, Humans, Spumavirus, MESH: Animals, Parasitology, Molecular Biology, Retroviridae Infections

Abstract

Zoonotic simian foamy viruses (SFV) establish lifelong infection in their human hosts. Despite repeated transmission of SFV from nonhuman primates to humans, neither transmission between human hosts nor severe clinical manifestations have been reported. We aim to study the immune responses elicited by chronic infection with this retrovirus and previously reported that SFV-infected individuals generate potent neutralizing antibodies that block cell infection by viral particles. Here, we assessed whether human plasma antibodies block SFV cell-to-cell transmission and present the first description of cell-to-cell spreading of zoonotic gorilla SFV. We set-up a microtitration assay to quantify the ability of plasma samples from 20 Central African individuals infected with gorilla SFV and 9 uninfected controls to block cell-associated transmission of zoonotic gorilla SFV strains. We used flow-based cell cytometry and fluorescence microscopy to study envelope protein (Env) localization and the capacity of plasma antibodies to bind to infected cells. We visualized the cell-to-cell spread of SFV by real-time live imaging of a GFP-expressing prototype foamy virus (CI-PFV) strain. None of the samples neutralized cell-associated SFV infection, despite the inhibition of cell-free virus. We detected gorilla SFV Env in the perinuclear region, cytoplasmic vesicles and at the cell surface. We found that plasma antibodies bind to Env located at the surface of cells infected with primary gorilla SFV strains. Extracellular labeling of SFV proteins by human plasma samples showed patchy staining at the base of the cell and dense continuous staining at the cell apex, as well as staining in the intercellular connections that formed when previously connected cells separated from each other. In conclusion, SFV-specific antibodies from infected humans do not block cell-to-cell transmission, at leastin vitro, despite their capacity to bind to the surface of infected cells.Trial registration: Clinical trial registration:www.clinicaltrials.gov,https://clinicaltrials.gov/ct2/show/NCT03225794/.

Published

2022

32. Analysis of the Phylogenetic Placement of Different Spumaretroviral Genes Reveals Complex Pattern of Foamy Virus Evolution

Author

Dias, Holger Warnat, Aboud, Mordechai, Flügel, Rolf M., and Becker, Yechiel, editor

Published

1996

33. Feline Foamy Virus Transmission in Tsushima Leopard Cats (Prionailurus bengalensis euptilurus) on Tsushima Island, Japan.

Author

AbuEed L, Makundi I, Miyake A, Kawasaki J, Minoura C, Koshida Y, and Nishigaki K

Subjects

Cats, Animals, Japan epidemiology, Phylogeny, Spumavirus, Retroviridae Infections epidemiology, Retroviridae Infections veterinary, Immunodeficiency Virus, Feline

Abstract

Tsushima leopard cats (TLC; Prionailurus bengalensis euptilurus ) only inhabit Tsushima Island, Nagasaki, Japan and are critically endangered and threatened by infectious diseases. The feline foamy virus (FFV) is widely endemic in domestic cats. Therefore, its transmission from domestic cats to TLCs may threaten the TLC population. Thus, this study aimed to assess the possibility that domestic cats could transmit FFV to TLCs. Eighty-nine TLC samples were screened, and FFV was identified in seven (7.86%). To assess the FFV infection status of domestic cats, 199 domestic cats were screened; 14.07% were infected. The phylogenetic analysis revealed that the FFV partial sequence from domestic cats and TLC sequences clustered in one clade, suggesting that the two populations share the same strain. The statistical data minimally supported the association between increased infection rate and sex ( p = 0.28), indicating that FFV transmission is not sex dependent. In domestic cats, a significant difference was observed in FFV detection in feline immunodeficiency virus ( p = 0.002) and gammaherpesvirus1 infection statuses ( p = 0.0001) but not in feline leukemia virus infection status ( p = 0.21). Monitoring FFV infection in domestic cats and TLC populations is highly recommended as part of TLC surveillance and management strategies.

Published

2023

34. The crystal structure of a simian Foamy Virus receptor binding domain provides clues about entry into host cells.

Author

Fernández I, Dynesen LT, Coquin Y, Pederzoli R, Brun D, Haouz A, Gessain A, Rey FA, Buseyne F, and Backovic M

Subjects

Retroviridae, Cell Membrane, Membrane Glycoproteins, Simian foamy virus, Spumavirus

Abstract

The surface envelope glycoprotein (Env) of all retroviruses mediates virus binding to cells and fusion of the viral and cellular membranes. A structure-function relationship for the HIV Env that belongs to the Orthoretrovirus subfamily has been well established. Structural information is however largely missing for the Env of Foamy viruses (FVs), the second retroviral subfamily. In this work we present the X-ray structure of the receptor binding domain (RBD) of a simian FV Env at 2.57 Å resolution, revealing two subdomains and an unprecedented fold. We have generated a model for the organization of the RBDs within the trimeric Env, which indicates that the upper subdomains form a cage-like structure at the apex of the Env, and identified residues K342, R343, R359 and R369 in the lower subdomain as key players for the interaction of the RBD and viral particles with heparan sulfate., (© 2023. The Author(s).)

Published

2023

35. Détection de différents rétrovirus chez des primates non-humains infectés par STLV-1 ou SFV et pathologie viro-induite

Author

Jocelyn Turpin, Sandrine Alais, Ambroise Marçais, Olivier Hermine, Réjane Rua, Antoine Gessain, Romain Lacoste, and Renaud Mahieux

Subjects

leucémie, rétrovirus, spumavirus, STLV-1, Science, Zoology, QL1-991

Abstract

Les rétrovirus STLV-1 (Simian T Lymphotropic Virus Type 1) et SFV (Simian Foamy Virus) infectent un grand nombre d'espèces de primates non-humains de l'Ancien Monde. STLV-1 est l'équivalent simien du rétrovirus humain HTLV-1 (Human T-cell Lymphotropic Virus Type 1). Tandis que l'infection par SFV est asymptomatique, STLV-1, comme HTLV-1 est l'agent étiologique de la Leucémie/Lymphome T de l'adulte. L'ATL est une maladie de sombre pronostic avec une médiane de survie de 6 mois dans la forme aiguë. Une lymphocytose associée à une charge provirale (PVL ou nombres de copies du génome viral, intégrées dans la cellule hôte) élevée et à une prolifération monoclonale de cellules infectées constituent des marqueurs de la maladie. Les virus STLV-1 et SFV peuvent être transmis de façon zoonotique du singe à l’homme mais seuls les virus HTLV-1 ont une transmission interhumaine. Il est communément établi que l'ADN proviral de SFV peut être détecté par PCR dans les cellules du sang circulant et dans la salive, tandis que celui de STLV-1 est généralement recherché uniquement dans les cellules mononucléées du sang périphérique. La colonie du centre de primatologie de Rousset comporte des Papio papio suivis depuis plusieurs années. 45 sont infectés par STLV-1, tandis que la prévalence de SFV n'était pas établie avant cette étude. Notre travail visait (1) à étudier la potentielle transmission zoonotique des virus STLV-1 et SFV par morsure en quantifiant la présence de ces virus par PCR en temps réel (STLV-1) ou par nested-PCR (SFV et STLV-1) dans la salive et dans le sang (contrôle), (2) à développer un protocole de traitement des animaux développant un ATL. Résultats : (A) 11 animaux positifs pour SFV et STLV-1 en sérologie ont été testés par PCR en temps réel ou en nested-PCR. SFV a été détecté chez 10 animaux dans le sang et chez 8 animaux dans la salive. STLV-1 a été détecté chez 7 animaux dans les échantillons de cellules issues du sang et dans seulement 2 échantillons de salive. De façon intéressante, ces 2 échantillons provenaient d'animaux ayant une charge provirale très importante. Une seconde étude est actuellement en cours afin de déterminer si la détection de STLV-1 dans des échantillons de salive est corrélée à une PVL importante dans le sang circulant. (B) Une femelle âgée de 11 ans a développé un ATL au cours de notre étude. La NFS indiquait une lymphocytose marquée (10,9 giga/litre) avec une absence d'hypercalcémie. L'anatomo-pathologie du ganglion inguinal révéla une hémopathie maligne avec un marquage CD25 fort. Des lésions de la peau évocatrices de celles retrouvées chez les patients ATL étaient observées. Le diagnostic d'ATL lymphomateux fut posé. Un traitement expérimental associant Combivir (AZT) et viraferon (interféron-alpha) et qui est utilisé chez les patients ATL chronique ou aiguë fut proposé. Après 4 mois de traitement et en absence d'amélioration des symptômes et d'une diminution de la PVL, le singe fut euthanasié. Une PVL élevée était retrouvée dans plusieurs organes : ganglions, rate, poumon et les analyses anatomopathologiques montrent un dysmorphisme marqué des différents tissus lymphoïdes secondaires, confirmant le diagnostique lymphomateux. Les résultats de la clonalité virale dans les différents organes sont actuellement en cours d'analyse. Conclusion : le Papio papio naturellement infecté par SFV et STLV-1 constitue un excellent modèle des infections humaines par ces 2 rétrovirus. [Les auteurs déclarent une contribution égale de Jocelyn Turpin et Sandrine Alais à ce travail.]

Published

2015

36. Evaluation of the stability and intratumoral delivery of foreign transgenes encoded by an oncolytic Foamy Virus vector

Author

Karol M, Budzik, Rebecca A, Nace, Yasuhiro, Ikeda, and Stephen J, Russell

Subjects

Oncolytic Virotherapy, Mice, DNA, Complementary, Cell Line, Tumor, Genetic Vectors, Animals, Humans, Spumavirus, Transgenes, Virus Replication, Thymidine Kinase

Abstract

Foamy Viruses are cell cycle-dependent retroviruses capable of persisting unintegrated in quiescent cells until cell division occurs. This unique ability allows them to target slowly dividing human tumor cells which remains an unmet need in oncolytic virotherapy. We have previously reported the generation of oncolytic Foamy Virus (oFV) vector system and demonstrated its superiority over oncolytic Murine Leukemia Virus vectors in infecting slowly dividing cancer cells. In the present study we evaluated (i) the ability of oFV to carry foreign transgenes and (ii) the genetic stability of these vectors upon serial passage. The thymidine kinase (TK) and inducible caspase 9 (iCasp9) cDNAs could be detected in the oFV backbone for up to 3 in vitro passages. In vivo, GFP-, TK- and iCasp9- carrying oFV vectors propagated efficiently in subcutaneous xenograft glioblastoma tumors and drove transgene expression for up to 66 days. However, in vivo oFV vector spread eventually resulted in complete loss of the iCasp9 cDNA, minor loss of the TK cDNA and negligible loss of the GFP. Our results suggest that oFV is a promising gene delivery platform and that transgenes smaller than 1 kb might be most suitable for oFV arming.

Published

2021

37. Novel Host Protein TBC1D16, a GTPase Activating Protein of Rab5C, Inhibits Prototype Foamy Virus Replication

Author

Jun Yan, Yingcheng Zheng, Peipei Yuan, Shanshan Wang, Song Han, Jun Yin, Biwen Peng, Zhi Li, Yan Sun, Xiaohua He, and Wanhong Liu

Subjects

Gene Expression Regulation, Viral, 0301 basic medicine, TBC1D16, GTPase-activating protein, Immunology, Antiviral protein, Biology, Virus Replication, Cell Line, 03 medical and health sciences, Transcription (biology), Animals, Humans, Immunology and Allergy, Gene silencing, Promoter Regions, Genetic, Gene, Cells, Cultured, rab5 GTP-Binding Proteins, Original Research, 030102 biochemistry & molecular biology, GTPase-Activating Proteins, Terminal Repeat Sequences, Rab5C, RC581-607, Cell biology, 030104 developmental biology, Gene Expression Regulation, Viral replication, Host-Pathogen Interactions, prototype foamy virus (PFV), Spumavirus, viral replication, Rab, Signal transduction, Immunologic diseases. Allergy, type I IFN, Protein Binding, Retroviridae Infections

Abstract

Prototype foamy virus (PFV) is a member of the oldest family of retroviruses and maintains lifelong latent infection in the host. The lifelong latent infection of PFV may be maintained by the restriction factors of viral replication in the host. However, the mechanisms involved in PFV latent infection are poorly understood. Here, we found that TBC1D16, a TBC domain-containing protein, is significantly down-regulated after PFV infection. Tre2/Bub2/Cdc16 (TBC) domain-containing proteins function as Rab GTPase-activating proteins (GAPs) and are participates in the progression of some diseases and many signaling pathways. However, whether TBC proteins are involved in PFV replication has not been determined. Here, we found that TBC1D16 is a novel antiviral protein that targets Rab5C to suppress PFV replication. Overexpression TBC1D16 inhibited the transcription and expression of Tas and Gag, and silencing TBC1D16 enhanced the PFV replication. Moreover, the highly conserved amino acid residues R494 and Q531 in the TBC domain of TBC1D16 were essential for inhibiting PFV replication. We also found that TBC1D16 promoted the production of PFV-induced IFN-β and the transcription of downstream genes. These results suggest that TBC1D16 might be the first identified TBC proteins that inhibited PFV replication and the mechanism by which TBC1D16 inhibited PFV replication could provide new insights for PFV latency.

Published

2021

38. Crystal Structure of a Retroviral Polyprotein: Prototype Foamy Virus Protease-Reverse Transcriptase (PR-RT)

Author

Jerry Joe E. K. Harrison, Stephen H. Hughes, Francesc X. Ruiz, Kalyan Das, Joseph D. Bauman, Steve Tuske, Eddy Arnold, Paul L. Boyer, and Jeffrey J. DeStefano

Subjects

medicine.medical_treatment, Protein subunit, viruses, ANGSTROM RESOLUTION, Microbiology, Virus, Article, PATHWAY, 03 medical and health sciences, DOMAIN, PFV, Virology, REVEALS, reverse transcriptase, medicine, RNase H, PRECURSOR, Polymerase, 030304 developmental biology, Polyproteins, POL, 0303 health sciences, Science & Technology, COMPLEX, Protease, STABILITY, biology, Chemistry, maturation, 030302 biochemistry & molecular biology, protease, RNA-Directed DNA Polymerase, DNA, Reverse Transcription, Molecular biology, Reverse transcriptase, QR1-502, Integrase, Infectious Diseases, Pol polyprotein, REPLICATION, Nucleic acid, biology.protein, Spumavirus, Crystallization, Life Sciences & Biomedicine, PR-RT, Peptide Hydrolases

Abstract

In most cases, proteolytic processing of the retroviral Pol portion of the Gag-Pol polyprotein precursor produces protease (PR), reverse transcriptase (RT), and integrase (IN). However, foamy viruses (FVs), express Pol separately from Gag and, when Pol is processed, only the IN domain is released. Here, we report a 2.9 Å resolution crystal structure of the mature PR-RT from prototype FV (PFV) that carries out both proteolytic processing and reverse transcription. PFV PR-RT is monomeric and the architecture of PFV PR is similar to one of the subunits of HIV-1 PR, which is a dimer. There is a C-terminal extension of PFV PR (101-145) that consists of two helices which are adjacent to the base of the RT palm subdomain, and anchors PR to RT. The polymerase domain of PFV RT consists of fingers, palm, thumb, and connection subdomains whose spatial arrangements are similar to the p51 subunit of HIV-1 RT. The RNase H and polymerase domains of PFV RT are connected by flexible linkers. Significant spatial and conformational (sub)domain rearrangements are therefore required for nucleic acid binding. The structure of PFV PR-RT provides insights into the conformational maturation of retroviral Pol polyproteins.IMPORTANCERetroviruses such as HIV and other human and animal pathogens have evolved to maximize the protein-coding capacity of their genomes. Retroviruses synthesize large polyprotein precursors that are subsequently cleaved to produce mature functional enzymes and structural proteins from the same mRNA template. These polyproteins play an important role in the viral life cycle. We report the monomeric structure of the prototype foamy virus protease-reverse transcriptase fusion (PR-RT) which serves as both a protease and reverse transcriptase. The monomeric PR domain is folded in a similar way as a single subunit of dimeric HIV-1 PR. PR is anchored close to the fingers subdomain of the RT by a long C-terminal extension (CTE) that folds into two helices that pack against the palm subdomain of the RT. The RT is folded similarly to the p51 subunit of HIV-1 RT with the RNase H subdomain packed against the thumb and opposite the connection and palm subdomains. This structure offers insight into the structural arrangement of the domains and subdomains of immature retroviral polyproteins and provides support for the concept of developing drugs that target interfaces between immature enzymes that are present only in retroviral polyprotein precursors.

Published

2021

39. Coelacanth SERINC2 Inhibits HIV-1 Infectivity and Is Counteracted by Envelope Glycoprotein from Foamy Virus

Author

Aman Singh, Vipin Bhardwaj, Ajit Chande, Pavitra Ramdas, and Nagarjun Vijay

Subjects

viruses, antiretroviral, Immunology, Virulence, Saccharomyces cerevisiae, Biology, Virus Replication, Microbiology, Virus, Cell Line, 03 medical and health sciences, Viral Envelope Proteins, Viral life cycle, Viral envelope, Virology, Gene duplication, Animals, Humans, Gene family, nef Gene Products, Human Immunodeficiency Virus, Coelacanth, 030304 developmental biology, Genetics, Infectivity, 0303 health sciences, 030302 biochemistry & molecular biology, Fishes, foamy viruses, Membrane Proteins, Haplorhini, SERINC, biology.organism_classification, restriction factors, Virus-Cell Interactions, HEK293 Cells, Anti-Retroviral Agents, whole-genome duplication, Insect Science, HIV-1, Spumavirus

Abstract

SERINC5 restricts nef-defective HIV-1 by affecting early steps of the virus life cycle. Distantly related retroviruses with a wide host range encode virulent factors in response to challenge by SERINC5. However, the evolutionary origins of this antiretroviral activity, its prevalence among the paralogs, and its ability to target retroviruses remain understudied. In agreement with previous studies, we found that four human SERINC paralogs inhibit nef-defective HIV-1, with SERINC2 being an exception. Here, we demonstrate that this lack of activity in human SERINC2 is associated with its post-whole-genome duplication (post-WGD) divergence, as evidenced by the ability of pre-WGD orthologs from Saccharomyces cerevisiae and flies and a post-WGD-proximate SERINC2 from coelacanths to inhibit the virus. Intriguingly, Nef is unable to counter coelacanth SERINC2, indicating that such activity was directed toward other retroviruses found in coelacanths (like foamy viruses). However, foamy virus-derived vectors are intrinsically resistant to the action of SERINC2, and we show that the foamy virus envelope confers this resistance by affecting its steady-state levels. Our study highlights an ancient origin of antiretroviral activity in SERINCs and a hitherto-unknown interaction with a foamy virus. IMPORTANCE SERINC5 constitutes a critical barrier to the propagation of retroviruses, as highlighted by parallel emergence of anti-SERINC5 activities among distant retroviral lineages. Therefore, understanding the origin and evolution of these host factors will provide key information about virus-host relationships that can be exploited for future drug development. Here, we show that SERINC5-mediated nef-defective HIV-1 infection inhibition is evolutionarily conserved. SERINC2 from coelacanth restricts HIV-1, and it was functionally adapted to target foamy viruses. Our findings provide insights into the evolutionary origin of antiretroviral activity in the SERINC gene family and uncover the role of SERINCs in shaping the long-term conflicts between retroviruses and their hosts.

Published

2021

40. Prototype foamy virus intasome aggregation is mediated by outer protein domains and prevented by protocatechuic acid

Author

Randi M. Mackler, Gayan Senavirathne, Kristine E. Yoder, Nathan D. Jones, Laura E. Baltierra-Jasso, Miguel Álvarez López, and Matthew P. Altman

Subjects

0301 basic medicine, Mutant, Protein domain, lcsh:Medicine, Buffers, Article, 03 medical and health sciences, chemistry.chemical_compound, Protein Aggregates, Viral Proteins, 0302 clinical medicine, Retrovirus, Tetramer, Protein Domains, Hydroxybenzoates, lcsh:Science, Multidisciplinary, biology, Integrases, Osmolar Concentration, lcsh:R, biology.organism_classification, Small molecule, Integrase, 030104 developmental biology, Monomer, chemistry, Ionic strength, biology.protein, Biophysics, Spumavirus, lcsh:Q, Protein Multimerization, 030217 neurology & neurosurgery

Abstract

The integrase (IN) enzyme of retrovirus prototype foamy virus (PFV) consists of four domains: amino terminal extension (NED), amino terminus (NTD), catalytic core (CCD), and carboxyl terminus domains (CTD). A tetramer of PFV IN with two viral DNA ends forms the functional intasome. Two inner monomers are catalytically active while the CCDs of the two outer monomers appear to play only structural roles. The NED, NTD, and CTD of the outer monomers are disordered in intasome structures. Truncation mutants reveal that integration to a supercoiled plasmid increases without the outer monomer CTDs present. Deletion of the outer CTDs enhances the lifetime of the intasome compared to full length (FL) IN or deletion of the outer monomer NTDs. High ionic strength buffer or several additives, particularly protocatechuic acid (PCA), enhance the integration of FL intasomes by preventing aggregation. These data confirm previous studies suggesting the disordered outer domains of PFV intasomes are not required for intasome assembly or integration. Instead, the outer CTDs contribute to aggregation of PFV intasomes which may be inhibited by high ionic strength buffer or the small molecule PCA.

Published

2019

41. The Long-Noncoding RNA lnc-NONH Enhances the Early Transcription of Prototype Foamy Virus Via Upregulating Expression of miR-34c-5p and Tas Protein

Author

Yan Sun, Wanhong Liu, Zhi Li, Biwen Peng, Peipei Yuan, Yingcheng Zheng, Qin Pan, Shanshan Xu, Jun Yin, Yinglian Tang, Song Han, Xiaohua He, Jun Yan, and Wenqiong Yang

Subjects

Small interfering RNA, Transcription, Genetic, Blotting, Western, Real-Time Polymerase Chain Reaction, Virus Replication, Cell Line, Viral Proteins, Retrovirus, Transcription (biology), Virology, microRNA, Humans, Gene, biology, Sequence Analysis, RNA, Gene Expression Profiling, RNA, biology.organism_classification, Long terminal repeat, Up-Regulation, Cell biology, MicroRNAs, Infectious Diseases, Viral replication, Host-Pathogen Interactions, Spumavirus, RNA, Long Noncoding

Abstract

Background: Prototype foamy virus (PFV) is a complex and unique retrovirus with the longest genome among the retroviruses and is used as a vector for gene therapies. The viral Tas protein transactivates the viral long terminal repeat promoter and is required for viral replication. We have utilized RNA sequencing to identify and characterize the long-noncoding RNA NONHSAG000101 (lnc-NONH), which markedly increases in PFV-infected cells. However, little is known about the function of lnc-NONH. Objectives: We aim to explore the role of lnc-NONH during PFV infection. Methods: To assess the lnc-NONH role during PFV infection, the siRNAs were used to silence the lnc-NONH expression. The microRNA (miRNA) mimic and inhibitor were employed to explore the function of lnc-NONH-related miRNA miR-34c-5p. Quantitative real-time polymerase chain reaction assay and Western blotting were applied to measure the mRNA and protein levels of PFV transactivator Tas. Luciferase assay was used to determine the transcriptional activity of the PFV unique internal promoter (IP). Results: lnc-NONH promotes the expression of PFV Tas and miR-34c-5p. The interaction between lnc-NONH and miR-34c-5p enhances the transcriptional activity of the PFV IP. Conclusions: In the current study, we report a novel mechanism for the lnc-NONH-mediated upregulation of Tas expression. Our findings contribute to the understanding of regulatory network of Tas expression and PFV replication.

Published

2019

42. Molecular Epidemiology and Whole-Genome Analysis of Bovine Foamy Virus in Japan

Author

Satoru Konnai, Takayuki Miyazawa, Tomohiro Okagawa, and Hirohisa Mekata

Subjects

0301 basic medicine, 040301 veterinary sciences, genotype, prevalence, Cattle Diseases, Biology, phylogeny, Genome, Microbiology, Article, Virus, 0403 veterinary science, 03 medical and health sciences, Japan, Phylogenetics, Virology, Genotype, Animals, Spumavirus, Cells, Cultured, Whole Genome Sequencing, Phylogenetic tree, Molecular epidemiology, Transmission (medicine), Age Factors, 04 agricultural and veterinary sciences, spumavirus, biology.organism_classification, QR1-502, 030104 developmental biology, Infectious Diseases, RNA, Viral, Cattle, Retroviridae Infections

Abstract

Bovine foamy virus (BFV) is a member of the foamy virus family in cattle. Information on the epidemiology, transmission routes, and whole-genome sequences of BFV is still limited. To understand the characteristics of BFV, this study included a molecular survey in Japan and the determination of the whole-genome sequences of 30 BFV isolates. A total of 30 (3.4%, 30/884) cattle were infected with BFV according to PCR analysis. Cattle less than 48 months old were scarcely infected with this virus, and older animals had a significantly higher rate of infection. To reveal the possibility of vertical transmission, we additionally surveyed 77 pairs of dams and 3-month-old calves in a farm already confirmed to have BFV. We confirmed that one of the calves born from a dam with BFV was infected. Phylogenetic analyses revealed that a novel genotype was spread in Japan. In conclusion, the prevalence of BFV in Japan is relatively low and three genotypes, including a novel genotype, are spread in Japan.

Published

2021

43. Multiple Infiltration and Cross-Species Transmission of Foamy Viruses across the Paleozoic to the Cenozoic Era

Author

Xiaoman Wei, Yicong Chen, Jie Cui, and Zhang Y

Subjects

Amphibian, Lineage (evolution), Immunology, Cross-species transmission, Genome, Viral, Macroevolution, Microbiology, Genome, Time, Amphibians, Evolution, Molecular, Retrovirus, Virology, biology.animal, Animals, Coevolution, History, Ancient, Phylogeny, biology, biology.organism_classification, Genetic Diversity and Evolution, Evolutionary biology, Insect Science, Host-Pathogen Interactions, Salamander, Spumavirus, Retroviridae Infections

Abstract

Foamy viruses (FVs) are complex retroviruses that can infect humans and other animals. In this study, by integrating transcriptomic and genomic data, we discovered 412 FVs from 6 lineages in amphibians, which significantly increased the known set of FVs in amphibians. Among these lineages, salamander FVs maintained a coevolutionary pattern with their hosts that could be dated back to the Paleozoic era, while in contrast, frog FVs were much more likely acquired from cross-species (class-level) transmission in the Cenozoic era. In addition, we found that three distinct FV lineages had integrated into the genome of a salamander. Unexpectedly, we identified a lineage of endogenous FVs in caecilians that expressed all complete major genes, demonstrating the potential existence of an exogenous form of FV outside of mammals. Our discovery of rare phenomena in amphibian FVs has significantly increased our understanding of the macroevolution of the complex retrovirus. IMPORTANCE Foamy viruses (FVs) represent, more so than other viruses, the best model of coevolution between a virus and a host. This study represents the largest investigation so far of amphibian FVs and reveals 412 FVs of 6 distinct lineages from three major orders of amphibians. Besides a coevolutionary pattern, cross-species and repeated infections were also observed during the evolution of amphibian FVs. Remarkably, expressed FVs including a potential exogenous form were discovered, suggesting that active FVs might be underestimated in nature. These findings revealed that the multiple origins and complex evolution of amphibian FVs started from the Paleozoic era.

Published

2021

44. Characterization and comparative analysis of a simian foamy virus complete genome isolated from Brazilian capuchin monkeys.

Author

Troncoso, Lian L., Muniz, Cláudia P., Siqueira, Juliana D., Curty, Gislaine, Schrago, Carlos G., Augusto, Anderson, Fedullo, Luiz, Soares, Marcelo A., and Santos, André F.

Subjects

*SIMIAN foamy virus, *VIRAL genomes, *COMPARATIVE studies, *CAPUCHIN monkeys, *POLYMERASE chain reaction, *GENE amplification, *VIRUSES

Abstract

Foamy viruses infect a wide range of placental mammals, including primates. However, despite of great diversity of New World primates, only three strains of neotropical simian foamy viruses (SFV) have been described. Only after 40 years since serological characterization, the complete sequence of an SFVcap strain infecting a family of six capuchin monkeys ( Sapajus xanthosternos ) was obtained. Co-culture of primate peripheral blood mononuclear cells with Cf2Th canine cells was established and monitored for the appearance of cytopathic effects, PCR amplification of integrated SFV proviral genome and viral reverse transcriptase activity. The novel SFVcap was fully sequenced through a next-generation sequencing protocol. Phylogenetic analysis of the complete genome grouped SFVcap and SFVmar, both infecting primate species of the Cebidae family with a genetic similarity of approximately 85%. Similar ORF sizes were observed among SFV from neotropical primates, and env and pol genes were the most conserved. Neotropical SFV presented the smallest LTRs among exogenous mammalians. The novel SFVcap strain provides a valuable research tool for the FV community. [ABSTRACT FROM AUTHOR]

Published

2015

45. Identification of Feline Foamy Virus-derived MicroRNAs

Author

Takayuki Miyazawa, Shiro Aso, Shoichi Sakaguchi, Akira Hashimoto-Gotoh, and Koichi Kitao

Subjects

foamy virus, Small RNA, viruses, Gene Expression, Soil Science, Plant Science, Biology, Simian, Deep sequencing, chemistry.chemical_compound, Gene expression, microRNA, Regular Paper, Animals, Spumavirus, Ecology, Evolution, Behavior and Systematics, feline foamy virus, Genetics, RNA, General Medicine, biology.organism_classification, MicroRNAs, chemistry, Cats, RNA, Viral, Cattle, DNA

Abstract

MicroRNAs (miRNAs) classified as non-coding RNAs regulate various metabolic systems and viral life cycles. To date, numerous DNA viruses, many of which are members of the herpesvirus family, and a relatively small number of RNA viruses, including retroviruses, have been reported to encode and express miRNAs in infected cells. A few retroviruses have been shown to express miRNAs, and foamy viruses (FVs) were initially predicted by computational analyses to possess miRNA-coding regions. Subsequent studies on simian and bovine FVs confirmed the presence of functional and biologically active miRNA expression cassettes. We herein identified feline FV-derived miRNAs using a small RNA deep sequencing ana-lysis. We confirmed their repressive functions on gene expression by dual-luciferase reporter assays. We found that the seed sequences of the miRNAs identified in the present study were conserved among all previously reported FFV isolates. These results suggest that FFV-derived miRNAs play a pivotal role in FFV infection.

Published

2021

46. Structures of Substrate Complexes of Foamy Viral Protease-Reverse Transcriptase

Author

Mariusz Czarnocki-Cieciura, Marcin Nowotny, Marzena Nowacka, Justyna Jackiewicz, Roman H. Szczepanowski, Elzbieta Nowak, Birgitta M. Wöhrl, and Krzysztof Skowronek

Subjects

Protein Conformation, DNA polymerase, medicine.medical_treatment, Ribonuclease H, Immunology, Microbiology, Viral Proteins, 03 medical and health sciences, chemistry.chemical_compound, protein nucleic acid complexes, Virology, reverse transcriptase, medicine, ddc:610, RNase H, X-ray crystallography, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Protease, biology, Viral Proteases, 030306 microbiology, Structure and Assembly, Cryoelectron Microscopy, foamy viruses, RNA, RNA-Directed DNA Polymerase, DNA, Reverse transcriptase, Enzyme, chemistry, Biochemistry, Insect Science, Nucleic acid, biology.protein, Spumavirus, cryo-EM

Abstract

Journal of virology 95(18), e00848-21 (2021). doi:10.1128/JVI.00848-21, Reverse transcriptases (RTs) use their DNA polymerase and RNase H activities to catalyze the conversion of single-stranded RNA to double-stranded DNA (dsDNA), a crucial process for the replication of retroviruses. Foamy viruses (FVs) possess a unique RT, which is a fusion with the protease (PR) domain. The mechanism of substrate binding by this enzyme has been unknown. Here, we report a crystal structure of monomeric full-length marmoset FV (MFV) PR-RT in complex with an RNA/DNA hybrid substrate. We also describe a structure of MFV PR-RT with an RNase H deletion in complex with a dsDNA substrate in which the enzyme forms an asymmetric homodimer. Cryo-electron microscopy reconstruction of the full-length MFV PR-RT���dsDNA complex confirmed the dimeric architecture. These findings represent the first structural description of nucleic acid binding by a foamy viral RT and demonstrate its ability to change its oligomeric state depending on the type of bound nucleic acid.Reverse transcriptases (RTs) are intriguing enzymes converting single-stranded RNA to dsDNA. Their activity is essential for retroviruses, which are divided into two subfamilies differing significantly in their life cycles: Orthoretrovirinae and Spumaretrovirinae. The latter family is much more ancient and comprises five genera. A unique feature of foamy viral RTs is that they contain N-terminal protease (PR) domains, which are not present in orthoretroviral enzymes. So far, no structural information for full-length foamy viral PR-RT interacting with nucleic substrates has been reported. Here, we present crystal and cryo-electron microscopy structures of marmoset foamy virus (MFV) PR-RT. These structures revealed the mode of binding of RNA/DNA and dsDNA substrates. Moreover, unexpectedly, the structures and biochemical data showed that foamy viral PR-RT can adopt both a monomeric configuration, which is observed in our structures in the presence of an RNA/DNA hybrid, and an asymmetric dimer arrangement, which we observed in the presence of dsDNA., Published by Soc., Baltimore, Md.

Published

2021

47. Foamy Viruses, Bet, and APOBEC3 Restriction

Author

Ananda Ayyappan Jaguva Vasudevan, Holger Gohlke, Daniel Becker, Tom Luedde, and Carsten Münk

Subjects

Primates, 0301 basic medicine, foamy virus, 030106 microbiology, Population, Retroviridae Proteins, lcsh:QR1-502, Review, lcsh:Microbiology, Cell Line, ddc:050, 03 medical and health sciences, Retrovirus, Virology, Animals, Humans, APOBEC Deaminases, Bushmeat, education, cytidine deaminase, education.field_of_study, Host Microbial Interactions, biology, Host (biology), viral antagonist, APOBEC3, Cytidine deaminase, Bet, biology.organism_classification, restriction factors, viral restriction, retrovirus, 030104 developmental biology, Infectious Diseases, Mutation, Tetherin, Spumavirus, Adaptation, Foamy Viruses, Retroviridae Infections

Abstract

Non-human primates (NHP) are an important source of viruses that can spillover to humans and, after adaptation, spread through the host population. Whereas HIV-1 and HTLV-1 emerged as retroviral pathogens in humans, a unique class of retroviruses called foamy viruses (FV) with zoonotic potential are occasionally detected in bushmeat hunters or zookeepers. Various FVs are endemic in numerous mammalian natural hosts, such as primates, felines, bovines, and equines, and other animals, but not in humans. They are apathogenic, and significant differences exist between the viral life cycles of FV and other retroviruses. Importantly, FVs replicate in the presence of many well-defined retroviral restriction factors such as TRIM5α, BST2 (Tetherin), MX2, and APOBEC3 (A3). While the interaction of A3s with HIV-1 is well studied, the escape mechanisms of FVs from restriction by A3 is much less explored. Here we review the current knowledge of FV biology, host restriction factors, and FV–host interactions with an emphasis on the consequences of FV regulatory protein Bet binding to A3s and outline crucial open questions for future studies.

Published

2021

48. Palmitoylation of the Bovine Foamy Virus Envelope Glycoprotein Is Required for Viral Replication

Author

Junshi Zhang, Zhaohuan Wang, Juan Tan, Keli Chai, Wentao Qiao, and Yali Xu

Subjects

0301 basic medicine, replication, viruses, membrane fusion, lcsh:QR1-502, Cattle Diseases, envelope glycoprotein, Context (language use), Virus Replication, BDHHC3, Virus, Article, lcsh:Microbiology, Cell Line, 03 medical and health sciences, Palmitoylation, Viral envelope, Viral Envelope Proteins, Virology, Animals, palmitoylation, BDHHC20, Cells, Cultured, Virus Release, chemistry.chemical_classification, 030102 biochemistry & molecular biology, Chemistry, Cell Membrane, Lipid bilayer fusion, bovine foamy virus, Virus Internalization, Cell biology, Protein Transport, 030104 developmental biology, Infectious Diseases, cell surface, Membrane protein, Viral replication, Viral Envelope, Spumavirus, Cattle, subviral particle, Glycoprotein, Protein Processing, Post-Translational, Retroviridae Infections

Abstract

Membrane proteins of enveloped viruses have been reported to undergo palmitoylation, a post-translational modification often having a critical role in the function of these viral proteins and hence viral replication. In this study, we report that the foamy virus (FV) envelope (Env) glycoprotein is palmitoylated. Specifically, we found that bovine foamy virus (BFV) Env (BEnv) is palmitoylated at amino acid positions C58 and C59 by BDHHC3 and BDHHC20 in a DHHC motif-dependent manner. In addition, mutations C58S and C58/59S significantly decrease cell surface expression of BEnv, subviral particle (SVP) egress, and its membrane fusion activity, thus ultimately inhibiting BFV replication. The C59S mutation exerts a minor effect in this regard. Taken together, these data demonstrate that the function of BEnv in the context of BFV replication is under the regulation of palmitoylation.

Published

2020

49. Identification of an Intermediate Step in Foamy Virus Fusion

Author

Aurélie Dupont, Ivo M. Glück, Dorothee Ponti, Kristin Stirnnagel, Sylvia Hütter, Florian Perrotton, Nicole Stanke, Stefanie Richter, Dirk Lindemann, Don C. Lamb, Laboratoire Interdisciplinaire de Physique [Saint Martin d’Hères] (LIPhy ), Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA), Ludwig-Maximilians-Universität München (LMU), and Technische Universität Dresden = Dresden University of Technology (TU Dresden)

Subjects

Life Cycle Stages, foamy virus, single virus tracking, viruses, [PHYS.PHYS.PHYS-BIO-PH]Physics [physics]/Physics [physics]/Biological Physics [physics.bio-ph], lcsh:QR1-502, Virion, envelope glycoprotein, Virus Internalization, Virus Replication, Membrane Fusion, Models, Biological, lcsh:Microbiology, Article, retrovirus, fluorescence live cell imaging, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, [SDV.BC.IC]Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], capsid, Humans, Spumavirus, viral fusion, spinning disk confocal microscopy, Retroviridae Infections

Abstract

Viral glycoprotein-mediated membrane fusion is an essential step for productive infection of host cells by enveloped viruses, however, due to its rarity and challenges in detection, little is known about the details of fusion events at the single particle level. Here, we have developed dual-color foamy viruses (FVs) composed of eGFP-tagged prototype FV (PFV) Gag and mCherry-tagged Env of either PFV or macaque simian FV (SFVmac) origin that have been optimized for detection of the fusion process. Using our recently developed tracking imaging correlation (TrIC) analysis, we were able to detect the fusion process for both PFV and SFVmac Env containing virions. PFV Env-mediated fusion was observed both at the plasma membrane as well as from endosomes, whereas SFVmac Env-mediated fusion was only observed from endosomes. PFV Env-mediated fusion was observed to happen more often and more rapidly than as for SFVmac Env. Strikingly, using the TrIC method, we detected a novel intermediate state where the envelope and capsids are still tethered but separated by up to 400 nm before final separation of Env and Gag occurred.

Published

2020

50. Neutralization of zoonotic retroviruses by human antibodies: genotype-specific epitopes within the receptor-binding domain from simian foamy virus (Updated January 23, 2023).

Published

2023