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2. Foamy Virus Transactivation and Gene Expression

Author

Löchelt, M., Compans, R. W., editor, Cooper, M. D., editor, Ito, Y., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M. B. A., editor, Olsnes, S., editor, Potter, M., editor, Vogt, P. K., editor, Wagner, H., editor, and Rethwilm, Axel, editor

Published
2003
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8. [Untitled]

Author

Flügel Rm, Löchelt M, Li W, and Ping Yang

Subjects
Reporter gene, biology, Effector, Estrogen receptor, Promoter, General Medicine, Human foamy virus, biology.organism_classification, Fusion protein, Molecular biology, Transactivation, Retrovirus, Virology, Genetics, Molecular Biology
Abstract

Recombinant plasmids that express human foamy virus (HFV) Bel 1 transactivator and human estrogen receptor (ER) fusion proteins were constructed. The HFV bel 1 gene was inserted up- and downstream of the ER gene. Recombinant Bel 1-ER and ER-Bel 1 fusion proteins were expressed in eukaryotic cells. In the absence of estrogen, the ER moiety of the fusion proteins suppressed Bel 1-mediated transactivation as measured in CAT reporter gene-based transactivation assays. However, transactivation of the HFV LTR and the HFV internal promoter by Bel 1-ER and ER-Bel 1 fusion proteins was recovered in the presence of estrogen. Thus, the transactivation function of the Bel 1 moiety of the chimeric Bel 1-ER fusion proteins can be efficiently, specifically, and intentionally activated and inactivated by simply adding the low-molecular weight effector estrogen.

Published
2000

9. Seroprevalence of feline foamy virus in domestic cats in Poland

Author

Materniak-Kornas Magdalena, Frymus Tadeusz, Löchelt Martin, and Kuźmak Jacek

Subjects
feline foamy virus, domestic cats, elisa, seroprevalence, Veterinary medicine, SF600-1100
Abstract

Feline foamy virus (FFVfca) is widespread and its prevalence in naturally infected domestic cats ranges between 30% and 80% worldwide. The infection is persistent, with a sustained antibody response in FFVfca-positive cats; however to date, no defined disease or clinical symptoms have been proved to be associated with it. The goal of the presented study was to determine the prevalence of FFVfca infection in domestic cats in Poland.

Published
2021
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24. Minireview Potential of Zoonotic Transmission of Non-Primate Foamy Viruses to Humans.

Author

Bastone, P., Truyen, U., and Löchelt, M.

Subjects
ZOONOSES, DISEASE vectors, PATHOGENIC microorganisms, INFECTIOUS disease transmission, FOAMY viruses
Abstract

The zoonotic introduction of an animal pathogen into the human population and the subsequent extension or alteration of its host range leading to the successful maintenance of the corresponding pathogen by human-to-human transmission pose a serious risk for world-wide health care. Such a scenario occurred for instance by the introduction of simian immunodeficiency viruses into the human population resulting in the human immunodeficiency viruses (HIV) and the subsequent AIDS pandemic or the proposed recent host range switch of the SARS coronavirus from a presently unknown animal species to humans. The occurrence of zoonotic transmissions of animal viruses to humans is a permanent threat to human health and is even increased by changes in the human lifestyle. In this review, the potential of the zoonotic transmission of bovine, feline and equine foamy retroviruses will be discussed in the light of well-documented cases of zoonotic transmissions of different simian foamy viruses to humans. [ABSTRACT FROM AUTHOR]

Published
2003
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26. An Outbred Calf Model for Determining Innate Immune Sensing and Evolutionary Trajectories of a Cell Culture-Adapted Bovine Foamy Virus Variant.

Author

Materniak-Kornas M, Kubiś P, Sell B, Pougialis G, Löchelt M, and Kuźmak J

Subjects
Animals, Cattle, Pilot Projects, Cell Culture Techniques, Immunity, Innate, Leukocytes, Mononuclear, Spumavirus genetics
Abstract

Bovine foamy virus (BFVbta) displays a very high degree of cell-associated replication which is unprecedented even among the other known foamy viruses. Interestingly, recent studies have shown that it can in fact adapt in vitro to high-titer (HT) cell-free transmission due to genetic changes acquired during repeated rounds of cell-free BFVbta passages in immortalized bovine MDBK cells. Molecular clones obtained from the HT BFVbta Riems cell-free variant (HT BFVbta Riems) have been thoroughly characterized in MDBK cell cultures However, during recent years, it has become increasingly clear that the source of the host cells used for virus growth and functional studies of virus replication and virus-cell interactions plays a paramount role. Established cell lines, mostly derived from tumors, but occasionally experimentally immortalized and transformed, frequently display aberrant features relating, for example. to growth, metabolism, and genetics. Even state-of-the-art organoid cultures of primary cells cannot replicate the conditions in an authentic host, especially those concerning cell diversity and the role of innate and adaptive immunity. Therefore, to determine the overall replication characteristics of the cloned wt and HT BFVbta Riems variant, we conducted a small-scale animal pilot study. The replication of the original wt BFVbta Riems isolate, as well as that of its HT variant, were analyzed. Both BFVbta variants established infection in calves, with proviruses in peripheral blood mononuclear cells and induced Gag-specific antibodies. In addition, a related pattern in the host innate immune reaction was detected in the peripheral blood leukocytes of the BFV-infected calves. Surprisingly, an analysis of the Gag sequence two weeks post-inoculation revealed that the HT BFVbta variant showed a very high level of genetic reversion to the wild type (parental BFVbta genotype).

Published
2023
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27. Occurrence of Equine Foamy Virus Infection in Horses from Poland.

Author

Materniak-Kornas M, Rożek W, Rola J, Osiński Z, Löchelt M, and Kuźmak J

Subjects
Animals, Bayes Theorem, Cats, Gene Products, gag, Horses, Poland epidemiology, Horse Diseases diagnosis, Horse Diseases epidemiology, Spumavirus genetics, Virus Diseases
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
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28. The Unique, the Known, and the Unknown of Spumaretrovirus Assembly.

Author

Lindemann D, Hütter S, Wei G, and Löchelt M

Subjects
Capsid metabolism, Genome, Viral, Host-Pathogen Interactions, Humans, Spumavirus ultrastructure, Viral Proteins metabolism, Virus Release, Virus Replication, Retroviridae Infections virology, Spumavirus physiology, Virus Assembly, Virus Physiological Phenomena
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
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29. Functional Analyses of Bovine Foamy Virus-Encoded miRNAs Reveal the Importance of a Defined miRNA for Virus Replication and Host-Virus Interaction.

Author

Cao W, Stricker E, Hotz-Wagenblatt A, Heit-Mondrzyk A, Pougialis G, Hugo A, Kuźmak J, Materniak-Kornas M, and Löchelt M

Subjects
Animals, Cattle, Cell Line, Computer Simulation, Host-Pathogen Interactions, Simian foamy virus genetics, Spumavirus physiology, Terminal Repeat Sequences, Host Microbial Interactions genetics, MicroRNAs genetics, Spumavirus genetics, Virus Replication
Abstract

In addition to regulatory or accessory proteins, some complex retroviruses gain a repertoire of micro-RNAs (miRNAs) to regulate and control virus-host interactions for efficient replication and spread. In particular, bovine and simian foamy viruses (BFV and SFV) have recently been shown to express a diverse set of RNA polymerase III-directed miRNAs, some with a unique primary miRNA double-hairpin, dumbbell-shaped structure not known in other viruses or organisms. While the mechanisms of expression and structural requirements have been studied, the functional importance of these miRNAs is still far from understood. Here, we describe the in silico identification of BFV miRNA targets and the subsequent experimental validation of bovine Ankyrin Repeat Domain 17 (ANKRD17) and Bax-interacting factor 1 (Bif1) target genes in vitro and, finally, the suppression of ANKRD17 downstream genes in the affected pathway. Deletion of the entire miRNA cassette in the non-coding part of the U3 region of the long terminal repeats attenuated replication of corresponding BFV mutants in bovine cells. This repression can be almost completely trans-complemented by the most abundant miRNA BF2-5p having the best scores for predicted and validated BFV miRNA target genes. Deletion of the miRNA cassette does not grossly affect particle release and overall particle composition.

Published
2020
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30. Shared and cell type-specific adaptation strategies of Gag and Env yield high titer bovine foamy virus variants.

Author

Bao Q, Hotz-Wagenblatt A, Betts MJ, Hipp M, Hugo A, Pougialis G, Lei-Rossmann J, and Löchelt M

Subjects
Adaptation, Biological, Animals, Cattle, Cell Line, Cricetinae, Gene Products, env metabolism, Gene Products, gag metabolism, HEK293 Cells, Humans, Retroviridae Infections transmission, Retroviridae Infections virology, Reverse Genetics, Virus Assembly, Gene Products, env genetics, Gene Products, gag genetics, Host-Pathogen Interactions physiology, Spumavirus pathogenicity
Abstract

During in vitro selection and evolution screens to adapt the tightly cell-associated bovine foamy virus BFV to high titer cell-free transmission, common, cell-type specific and concurrent adaptive changes in Gag and Env, the major players of foamy virus particle assembly and release, were detected. Upon early establishment of cell type-independent pioneering mutations in Env and, subsequently in Gag, a diverse virus pool emerged that was characterized by the occurrence of shared and additional cell type-specific exchanges. At late passages and saturated titers, remarkably homogeneous virus populations characterized by functionally important mutations developed which may be partly due to stochastic evolutionary events that occurred earlier during adaptation. Reverse genetics showed that defined mutations were functionally important for high titer cell-free transmission., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest. The funding sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published
2020
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31. Infection with Foamy Virus in Wild Ruminants-Evidence for a New Virus Reservoir?

Author

Materniak-Kornas M, Löchelt M, Rola J, and Kuźmak J

Subjects
Animals, Animals, Wild, Antibodies, Viral blood, Bison virology, DNA, Viral blood, DNA, Viral genetics, Deer virology, Disease Reservoirs virology, Phylogeny, Poland epidemiology, Prevalence, Retroviridae Infections epidemiology, Retroviridae Infections transmission, Retroviridae Infections virology, Retroviridae Proteins genetics, Retroviridae Proteins immunology, Spumavirus classification, Spumavirus genetics, Spumavirus immunology, Terminal Repeat Sequences genetics, Disease Reservoirs veterinary, Retroviridae Infections veterinary, Ruminants virology, Spumavirus isolation & purification
Abstract

Foamy viruses (FVs) are widely distributed and infect many animal species including non-human primates, horses, cattle, and cats. Several reports also suggest that other species can be FV hosts. Since most of such studies involved livestock or companion animals, we aimed to test blood samples from wild ruminants for the presence of FV-specific antibodies and, subsequently, genetic material. Out of 269 serum samples tested by ELISA with the bovine foamy virus (BFV) Gag and Bet antigens, 23 sera showed increased reactivity to at least one of them. High reactive sera represented 30% of bison samples and 7.5% of deer specimens. Eleven of the ELISA-positives were also strongly positive in immunoblot analyses. The peripheral blood DNA of seroreactive animals was tested by semi-nested PCR. The specific 275 bp fragment of the pol gene was amplified only in one sample collected from a red deer and the analysis of its sequence showed the highest homology for European BFV isolates. Such results may suggest the existence of a new FV reservoir in bison as well as in deer populations. Whether the origin of such infections stems from a new FV or is the result of BFV inter-species transmission remains to be clarified.

Published
2020
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32. Bovine Foamy Virus: Shared and Unique Molecular Features In Vitro and In Vivo.

Author

Materniak-Kornas M, Tan J, Heit-Mondrzyk A, Hotz-Wagenblatt A, and Löchelt M

Subjects
Animals, Cattle, Disease Models, Animal, Humans, MicroRNAs genetics, Phylogeny, Retroviridae Infections virology, Spumavirus genetics, Virus Replication, Zoonoses, Cattle Diseases virology, Gene Expression Regulation, Viral genetics, Host-Pathogen Interactions, Retroviridae Infections veterinary, Spumavirus physiology
Abstract

The retroviral subfamily of Spumaretrovirinae consists of five genera of foamy (spuma) viruses (FVs) that are endemic in some mammalian hosts [1]. Closely related species may be susceptible to the same or highly related FVs. FVs are not known to induce overt disease and thus do not pose medical problems to humans and livestock or companion animals. A robust lab animal model is not available or is a lab animal a natural host of a FV. Due to this, research is limited and often focused on the simian FVs with their well-established zoonotic potential. The authors of this review and their groups have conducted several studies on bovine FV (BFV) in the past with the intention of (i) exploring the risk of zoonotic infection via beef and raw cattle products, (ii) studying a co-factorial role of BFV in different cattle diseases with unclear etiology, (iii) exploring unique features of FV molecular biology and replication strategies in non-simian FVs, and (iv) conducting animal studies and functional virology in BFV-infected calves as a model for corresponding studies in primates or small lab animals. These studies gained new insights into FV-host interactions, mechanisms of gene expression, and transcriptional regulation, including miRNA biology, host-directed restriction of FV replication, spread and distribution in the infected animal, and at the population level. The current review attempts to summarize these findings in BFV and tries to connect them to findings from other FVs., Competing Interests: The authors declare no conflict of interest.

Published
2019
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33. Feline foamy virus seroprevalence and demographic risk factors in stray domestic cat populations in Colorado, Southern California and Florida, USA.

Author

Kechejian S, Dannemiller N, Kraberger S, Ledesma Feliciano C, Löchelt M, Carver S, and VandeWoude S

Abstract

Objectives: Our study aim was to document the seroprevalence and associated risk factors of feline foamy virus (FFV) infection in domestic cat populations presented to animal shelters located in Southern California, Colorado and Florida, USA., Methods: We used a glutathione S-transferase capture ELISA targeting the FFV Gag antigen to screen domestic cat serum collected from cats with unknown owners at eight different animal shelters from Colorado (n = 105, three shelters), Southern California (n = 172, three shelters) and Florida (n = 31, two shelters). χ 2 statistics determined location effect on seroprevalence. Bayesian generalized linear models were used to explore age and sex as potential risk factors for infection., Results: FFV seroprevalence was 64.0% across all locations. Seroprevalence by location was as follows: Southern California 75.0%, Colorado 52.4% and Florida 41.9%, with Southern California's seroprevalence being significantly higher. Age had a significant effect on model fit for all locations, with adults having a higher probability of being infected. In Colorado, sex also had a significant effect on model fit, with males having a higher probability of being infected., Conclusions and Relevance: We have documented that FFV is extremely common in stray domestic cat populations across varied geographic and ecological niches throughout the USA. Adult cats are at a higher FFV infection risk than young cats. FFV has been associated with a higher risk of other retroviral infections and has been implicated in several chronic diseases of cats. Additional epidemiological and clinical studies are warranted to investigate the potential impacts of FFV on domestic cat health., Competing Interests: Conflict of interest: There are no conflicts of interest at play in this research. Funding sources had no hand in the study design, data collection, analysis of data or conclusions of the results.

Published
2019
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34. Feline Foamy Virus Infection: Characterization of Experimental Infection and Prevalence of Natural Infection in Domestic Cats with and without Chronic Kidney Disease.

Author

Ledesma-Feliciano C, Troyer RM, Zheng X, Miller C, Cianciolo R, Bordicchia M, Dannemiller N, Gagne R, Beatty J, Quimby J, Löchelt M, and VandeWoude S

Subjects
Animals, Biomarkers, Cats, Immunophenotyping, Kidney pathology, Kidney ultrastructure, Kidney virology, Leukocytes, Mononuclear virology, Prevalence, Viral Load, Viral Tropism, Cat Diseases epidemiology, Cat Diseases virology, Renal Insufficiency, Chronic veterinary, Retroviridae Infections veterinary, Spumavirus physiology
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
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35. Feline Foamy Virus is Highly Prevalent in Free-Ranging Puma concolor from Colorado, Florida and Southern California.

Author

Kechejian SR, Dannemiller N, Kraberger S, Ledesma-Feliciano C, Malmberg J, Roelke Parker M, Cunningham M, McBride R, Riley SPD, Vickers WT, Logan K, Alldredge M, Crooks K, Löchelt M, Carver S, and VandeWoude S

Subjects
Animals, Antibodies, Viral blood, California epidemiology, Cat Diseases virology, Cats, Colorado epidemiology, Female, Florida epidemiology, Male, Prevalence, Retroviridae Infections epidemiology, Seroepidemiologic Studies, Species Specificity, Cat Diseases epidemiology, Puma virology, Retroviridae Infections veterinary, Spumavirus isolation & purification
Abstract

Feline foamy virus (FFV) is a retrovirus that has been detected in multiple feline species, including domestic cats ( Felis catus ) and pumas ( Puma concolor ). FFV results in persistent infection but is generally thought to be apathogenic. Sero-prevalence in domestic cat populations has been documented in several countries, but the extent of viral infections in nondomestic felids has not been reported. In this study, we screened sera from 348 individual pumas from Colorado, Southern California and Florida for FFV exposure by assessing sero-reactivity using an FFV anti-Gag ELISA. We documented a sero-prevalence of 78.6% across all sampled subpopulations, representing 69.1% in Southern California, 77.3% in Colorado, and 83.5% in Florida. Age was a significant risk factor for FFV infection when analyzing the combined populations. This high prevalence in geographically distinct populations reveals widespread exposure of puma to FFV and suggests efficient shedding and transmission in wild populations.

Published
2019
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36. Twelfth International Foamy Virus Conference-Meeting Report.

Author

Herchenröder O, Löchelt M, Buseyne F, Gessain A, Soares MA, Khan AS, and Lindemann D

Subjects
Animals, Genetic Vectors, Germany, Humans, Primates, Research, Spumavirus pathogenicity, Virus Replication, Genetic Therapy, Retroviridae Infections immunology, Retroviridae Infections therapy, Spumavirus classification
Abstract

The 12 th International Foamy Virus Conference took place on August 30⁻31, 2018 at the Technische Universität Dresden, Dresden, Germany. The meeting included presentations on current research on non-human primate and non-primate foamy viruses (FVs; also called spumaretroviruses) as well as keynote talks on related research areas in retroviruses. The taxonomy of foamy viruses was updated earlier this year to create five new genera in the subfamily, Spumaretrovirinae , based on their animal hosts. Research on viruses from different genera was presented on topics of potential relevance to human health, such as natural infections and cross-species transmission, replication, and viral-host interactions in particular with the immune system, dual retrovirus infections, virus structure and biology, and viral vectors for gene therapy. This article provides an overview of the current state-of-the-field, summarizes the meeting highlights, and presents some important questions that need to be addressed in the future., Competing Interests: The authors declare no conflict of interest. The funding agencies had no role in the decision to publish this report

Published
2019
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38. The chromatin binding domain, including the QPQRYG motif, of feline foamy virus Gag is required for viral DNA integration and nuclear accumulation of Gag and the viral genome.

Author

Wei G, Kehl T, Bao Q, Benner A, Lei J, and Löchelt M

Subjects
Amino Acid Motifs, Amino Acid Sequence, Animals, Binding Sites, Cats, Cell Line, Chromatin metabolism, DNA-Binding Proteins, Gene Products, gag genetics, Humans, Mutagenesis, Protein Domains, Reverse Transcription, Sequence Alignment, Spumavirus physiology, Virion, Virus Assembly, Virus Integration, Virus Internalization, Gene Products, gag metabolism, Genome, Viral genetics, Spumavirus genetics
Abstract

The retroviral Gag protein, the major component of released particles, plays different roles in particle assembly, maturation or infection of new host cells. Here, we characterize the Gag chromatin binding site including the highly conserved QPQRYG motif of feline foamy virus, a member of the Spumaretrovirinae. Mutagenesis of critical residues in the chromatin binding site/QPQRYG motif almost completely abrogates viral DNA integration and reduces nuclear accumulation of Gag and viral DNA. Genome packaging, reverse transcription, particle release and uptake into new target cells are not affected. The integrity of the QPQRYG motif appears to be important for processes after cytosolic entry, likely influencing incoming virus capsids or disassembly intermediates but not Gag synthesized de novo in progeny virus-producing cells. According to our data, chromatin binding is a shared feature among foamy viruses but further work is needed to understand the mechanisms involved., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published
2018
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39. Functional characterization of the bovine foamy virus miRNA expression cassette and its dumbbell-shaped pri-miRNA.

Author

Cao W, Heit A, Hotz-Wagenblatt A, and Löchelt M

Subjects
Animals, Cattle, Cell Line, Cricetinae, Dogs, Gene Order, Genes, Reporter, Genome, Viral, Humans, Nucleic Acid Conformation, Promoter Regions, Genetic, Gene Expression Regulation, Viral, Inverted Repeat Sequences, MicroRNAs chemistry, MicroRNAs genetics, RNA, Viral, Retroviridae Infections virology, Spumavirus genetics
Abstract

Foamy viruses are unconventional and complex retroviruses distinct from the other members of the Retroviridae family. Currently, no disease has been firmly linked to persistent foamy virus infection of their cognate host including simians, bovines, felines, and equines or upon zoonotic transmission of different simian foamy viruses to humans. Bovine and simian foamy viruses have been recently shown to encode a RNA polymerase-III-driven micro RNA cluster which likely modulates and regulates host-virus interactions at different levels. Using sub-genomic bovine foamy virus micro RNA expression plasmids and dual luciferase reporter assays as readout, the requirements for expression and processing of the bovine foamy virus micro RNAs have been analyzed. Here, we report that the minimal BFV micro RNA cassette is significantly weaker than a U6 promoter-based construct and strongly suppressed by flanking sequences. The primary micro RNA sequence can be manipulated and chimerized as long as the dumbbell-like folding of the primary micro RNA is maintained. Since more subtle changes are associated with reduced functionality, the overall structure and shape, but possibly individual elements and residues also, are important for the expression and processing of the bovine foamy virus micro RNAs.

Published
2018
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40. Replacement of feline foamy virus bet by feline immunodeficiency virus vif yields replicative virus with novel vaccine candidate potential.

Author

Ledesma-Feliciano C, Hagen S, Troyer R, Zheng X, Musselman E, Slavkovic Lukic D, Franke AM, Maeda D, Zielonka J, Münk C, Wei G, VandeWoude S, and Löchelt M

Subjects
Animals, Antibodies, Viral blood, Antibodies, Viral immunology, Cats, Cell Line, Cytidine Deaminase genetics, Cytidine Deaminase metabolism, Gene Order, Gene Products, gag metabolism, Genome, Viral, Host-Pathogen Interactions genetics, Host-Pathogen Interactions immunology, Immunodeficiency Virus, Feline immunology, Recombination, Genetic, Retroviridae Infections genetics, Retroviridae Infections metabolism, Retroviridae Infections virology, Spumavirus immunology, Viral Load, Viral Vaccines immunology, Gene Products, vif genetics, Immunodeficiency Virus, Feline genetics, Retroviridae Proteins genetics, Spumavirus genetics, Viral Vaccines genetics, Virus Replication
Abstract

Background: Hosts are able to restrict viral replication to contain virus spread before adaptive immunity is fully initiated. Many viruses have acquired genes directly counteracting intrinsic restriction mechanisms. This phenomenon has led to a co-evolutionary signature for both the virus and host which often provides a barrier against interspecies transmission events. Through different mechanisms of action, but with similar consequences, spumaviral feline foamy virus (FFV) Bet and lentiviral feline immunodeficiency virus (FIV) Vif counteract feline APOBEC3 (feA3) restriction factors that lead to hypermutation and degradation of retroviral DNA genomes. Here we examine the capacity of vif to substitute for bet function in a chimeric FFV to assess the transferability of anti-feA3 factors to allow viral replication., Results: We show that vif can replace bet to yield replication-competent chimeric foamy viruses. An in vitro selection screen revealed that an engineered Bet-Vif fusion protein yields suboptimal protection against feA3. After multiple passages through feA3-expressing cells, however, variants with optimized replication competence emerged. In these variants, Vif was expressed independently from an N-terminal Bet moiety and was stably maintained. Experimental infection of immunocompetent domestic cats with one of the functional chimeras resulted in seroconversion against the FFV backbone and the heterologous FIV Vif protein, but virus could not be detected unambiguously by PCR. Inoculation with chimeric virus followed by wild-type FFV revealed that repeated administration of FVs allowed superinfections with enhanced antiviral antibody production and detection of low level viral genomes, indicating that chimeric virus did not induce protective immunity against wild-type FFV., Conclusions: Unrelated viral antagonists of feA3 cellular restriction factors can be exchanged in FFV, resulting in replication competence in vitro that was attenuated in vivo. Bet therefore may have additional functions other than A3 antagonism that are essential for successful in vivo replication. Immune reactivity was mounted against the heterologous Vif protein. We conclude that Vif-expressing FV vaccine vectors may be an attractive tool to prevent or modulate lentivirus infections with the potential option to induce immunity against additional lentivirus antigens.

Published
2018
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41. Spumaretroviruses: Updated taxonomy and nomenclature.

Author

Khan AS, Bodem J, Buseyne F, Gessain A, Johnson W, Kuhn JH, Kuzmak J, Lindemann D, Linial ML, Löchelt M, Materniak-Kornas M, Soares MA, and Switzer WM

Subjects
Animals, Host Specificity, Humans, Phylogeny, Primates virology, Spumavirus genetics, Spumavirus isolation & purification, Spumavirus physiology, Retroviridae Infections veterinary, Retroviridae Infections virology, Spumavirus classification
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., (Published by Elsevier Inc.)

Published
2018
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42. Targeted Enrichment for Pathogen Detection and Characterization in Three Felid Species.

Author

Lee JS, Mackie RS, Harrison T, Shariat B, Kind T, Kehl T, Löchelt M, Boucher C, and VandeWoude S

Subjects
Animals, Bacterial Infections diagnosis, Cat Diseases microbiology, Cat Diseases virology, Cats, High-Throughput Nucleotide Sequencing methods, Nucleic Acid Amplification Techniques methods, Virus Diseases diagnosis, Bacterial Infections veterinary, Cat Diseases diagnosis, Molecular Diagnostic Techniques methods, Virus Diseases veterinary
Abstract

Traditional diagnostic assays often lack sensitivity and can be difficult to multiplex across many pathogens. Next-generation sequencing (NGS) can overcome some of these problems but has limited application in the detection of low-copy-number pathogens in complex samples. Targeted genome capture (TGC) utilizes oligonucleotide probes to enrich specific nucleic acids in heterogeneous extracts and can therefore increase the proportion of NGS reads for low-abundance targets. While earlier studies have demonstrated the utility of this technology for detection of novel pathogens in human clinical samples, the capacity and practicality of TGC-NGS in a veterinary diagnostic setting have not yet been evaluated. Here we report the use of TGC-NGS assays for the detection and characterization of diverse feline pathogen taxa. We detected 31 pathogens comprising nine pathogen taxa in 28 felid samples analyzed. This included 20 pathogens detected via traditional PCR and 11 additional pathogens that had not been previously detected in the same samples. Most of the pathogens detected were sequenced at sufficient breadth and depth to confidently classify them at the species or subspecies level. Target nucleic acids were enriched from a low of 58-fold to 56 million-fold relative to host nucleic acids. Despite the promising performance of these assays, a number of pathogens detected by conventional PCR or serology were not isolated by TGC-NGS, suggesting that further validation is required before this technology can be used in lieu of quality-controlled standard assays. We conclude that TGC-NGS offers great potential as a broad multiplex pathogen characterization assay in veterinary diagnostic and research settings., (Copyright © 2017 Lee et al.)

Published
2017
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43. Epitope Mapping of the Antibody Response Against the Envelope Proteins of the Feline Foamy Virus.

Author

Mühle M, Bleiholder A, Löchelt M, and Denner J

Subjects
Animals, Cats, Protein Array Analysis, Puma, Rats, Wistar, Antibody Formation, Epitope Mapping, Spumavirus immunology, Viral Envelope Proteins immunology
Abstract

Foamy viruses (FV) are retroviruses that infect several species without pathological signs, but induce substantial antibody responses in the infected host. In the case of feline FV (FFV), antibodies against Gag, Bet, and Env have been used to indicate infection; however, it is unclear whether the response to specific epitopes correlates with immunity. Here, we investigated the epitope specificity of antibodies targeting the Env protein using peptide microarrays. Sera from naturally and experimentally FFV-infected cats and pumas and from rats immunized with FFV Env expression plasmids were analyzed. An immunodominant epitope was identified in the Env leader protein (Elp), and a strong reactivity to two epitope clusters in the transmembrane (TM) subunit of Env was observed. Moreover, a short stretch of residues in the C-terminal part of the surface (SU) protein was found to be significantly associated with FFV serotype FUV-mediated neutralization. Taken together, our results add a new level of detail on the B cell epitope repertoire induced during FFV infection. Furthermore, our results provide a basis for current attempts to modify FV vectors to express and present vaccine epitopes for the directed induction of humoral immunity.

Published
2017
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44. Eleventh International Foamy Virus Conference-Meeting Report.

Author

Buseyne F, Gessain A, Soares MA, Santos AF, Materniak-Kornas M, Lesage P, Zamborlini A, Löchelt M, Qiao W, Lindemann D, Wöhrl BM, Stoye JP, Taylor IA, and Khan AS

Subjects
Animals, Antiviral Agents isolation & purification, Antiviral Agents pharmacology, Disease Transmission, Infectious, Genetic Vectors, Humans, Paris, Retroviridae Infections drug therapy, Retroviridae Infections epidemiology, Spumavirus genetics, Retroviridae Infections veterinary, Retroviridae Infections virology, Spumavirus pathogenicity
Abstract

The Eleventh International Foamy Virus Conference took place on 9-10 June 2016 at the Institut Pasteur, Paris, France. The meeting reviewed progress on foamy virus (FV) research, as well as related current topics in retrovirology. FVs are complex retroviruses that are widespread in several animal species. Several research topics on these viruses are relevant to human health: cross-species transmission and viral emergence, vectors for gene therapy, development of antiretroviral drugs, retroviral evolution and its influence on the human genome. In this article, we review the conference presentations on these viruses and highlight the major questions to be answered., Competing Interests: The authors declare no conflict of interest. The founding sponsors had no role in the decision to publish this summary.

Published
2016
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45. Mutagenesis of N-terminal residues of feline foamy virus Gag reveals entirely distinct functions during capsid formation, particle assembly, Gag processing and budding.

Author

Liu Y, Betts MJ, Lei J, Wei G, Bao Q, Kehl T, Russell RB, and Löchelt M

Subjects
Animals, Capsid Proteins metabolism, Cats, Cell Line, Gene Products, gag chemistry, Gene Products, gag genetics, Genome, Viral, Humans, Models, Molecular, Phenotype, Point Mutation, Spumavirus ultrastructure, Capsid metabolism, Gene Products, gag metabolism, Mutagenesis, Spumavirus genetics, Virus Assembly, Virus Release
Abstract

Background: Foamy viruses (FVs) of the Spumaretrovirinae subfamily are distinct retroviruses, with many features of their molecular biology and replication strategy clearly different from those of the Orthoretroviruses, such as human immunodeficiency, murine leukemia, and human T cell lymphotropic viruses. The FV Gag N-terminal region is responsible for capsid formation and particle budding via interaction with Env. However, the critical residues or motifs in this region and their functional interaction are currently ill-defined, especially in non-primate FVs., Results: Mutagenesis of N-terminal Gag residues of feline FV (FFV) reveals key residues essential for either capsid assembly and/or viral budding via interaction with the FFV Env leader protein (Elp). In an in vitro Gag-Elp interaction screen, Gag mutations abolishing particle assembly also interfered with Elp binding, indicating that Gag assembly is a prerequisite for this highly specific interaction. Gradient sedimentation analyses of cytosolic proteins indicate that wild-type Gag is mostly assembled into virus capsids. Moreover, proteolytic processing of Gag correlates with capsid assembly and is mostly, if not completely, independent from particle budding. In addition, Gag processing correlates with the presence of packaging-competent FFV genomic RNA suggesting that Pol encapsidation via genomic RNA is a prerequisite for Gag processing. Though an appended heterogeneous myristoylation signal rescues Gag particle budding of mutants unable to form capsids or defective in interacting with Elp, it fails to generate infectious particles that co-package Pol, as evidenced by a lack of Gag processing., Conclusions: Changes in proteolytic Gag processing, intracellular capsid assembly, particle budding and infectivity of defined N-terminal Gag mutants highlight their essential, distinct and only partially overlapping roles during viral assembly and budding. Discussion of these findings will be based on a recent model developed for Gag-Elp interactions in prototype FV.

Published
2016
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46. In Vitro Evolution of Bovine Foamy Virus Variants with Enhanced Cell-Free Virus Titers and Transmission.

Author

Bao Q, Hipp M, Hugo A, Lei J, Liu Y, Kehl T, Hechler T, and Löchelt M

Subjects
Adaptation, Biological, Animals, Biological Evolution, Cells, Cultured, Humans, Models, Biological, Retroviridae Infections virology, Selection, Genetic, Virus Internalization, Virus Release, Retroviridae Infections transmission, Retroviridae Infections veterinary, Spumavirus genetics, Spumavirus growth & development, Viral Load
Abstract

Virus transmission is essential for spreading viral infections and is a highly coordinated process which occurs by cell-free transmission or cell-cell contact. The transmission of Bovine Foamy Virus (BFV) is highly cell-associated, with undetectable cell-free transmission. However, BFV particle budding can be induced by overexpression of wild-type (wt) BFV Gag and Env or artificial retargeting of Gag to the plasma membrane via myristoylation membrane targeting signals, closely resembling observations in other foamy viruses. Thus, the particle release machinery of wt BFV appears to be an excellent model system to study viral adaption to cell-free transmission by in vitro selection and evolution. Using selection for BFV variants with high cell-free infectivity in bovine and non-bovine cells, infectivity dramatically increased from almost no infectious units to about 105-106 FFU (fluorescent focus forming units)/mL in both cell types. Importantly, the selected BFV variants with high titer (HT) cell-free infectivity could still transmit via cell-cell contacts and were neutralized by serum from naturally infected cows. These selected HT-BFV variants will shed light into virus transmission and potential routes of intervention in the spread of viral infections. It will also allow the improvement or development of new promising approaches for antiretroviral therapies.

Published
2015
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47. Replication-Competent Foamy Virus Vaccine Vectors as Novel Epitope Scaffolds for Immunotherapy.

Author

Lei J, Osen W, Gardyan A, Hotz-Wagenblatt A, Wei G, Gissmann L, Eichmüller S, and Löchelt M

Subjects
Amino Acid Sequence, Animals, Antigen Presentation immunology, Antigens, Neoplasm immunology, Cell Line, Tumor, Epitopes, T-Lymphocyte chemistry, HEK293 Cells, Histocompatibility Antigens Class I immunology, Humans, Interferon-gamma immunology, Mice, Inbred C57BL, Molecular Sequence Data, Ovalbumin immunology, Peptides chemistry, Recombinant Fusion Proteins metabolism, T-Lymphocytes, Cytotoxic immunology, Viral Structural Proteins chemistry, Viral Structural Proteins metabolism, Epitopes, T-Lymphocyte immunology, Genetic Vectors metabolism, Immunotherapy, Spumavirus physiology, Vaccines immunology, Virus Replication
Abstract

The use of whole viruses as antigen scaffolds is a recent development in vaccination that improves immunogenicity without the need for additional adjuvants. Previous studies highlighted the potential of foamy viruses (FVs) in prophylactic vaccination and gene therapy. Replication-competent FVs can trigger immune signaling and integrate into the host genome, resulting in persistent antigen expression and a robust immune response. Here, we explored feline foamy virus (FFV) proteins as scaffolds for therapeutic B and T cell epitope delivery in vitro. Infection- and cancer-related B and T cell epitopes were grafted into FFV Gag, Env, or Bet by residue replacement, either at sites of high local sequence homology between the epitope and the host protein or in regions known to tolerate sequence alterations. Modified proviruses were evaluated in vitro for protein steady state levels, particle release, and virus titer in permissive cells. Modification of Gag and Env was mostly detrimental to their function. As anticipated, modification of Bet had no impact on virion release and affected virus titers of only some recombinants. Further evaluation of Bet as an epitope carrier was performed using T cell epitopes from the model antigen chicken ovalbumin (OVA), human tyrosinase-related protein 2 (TRP-2), and oncoprotein E7 of human papillomavirus type 16 (HPV16E7). Transfection of murine cells with constructs encoding Bet-epitope chimeric proteins led to efficient MHC-I-restricted epitope presentation as confirmed by interferon-gamma enzyme-linked immunospot assays using epitope-specific cytotoxic T lymphocyte (CTL) lines. FFV infection-mediated transduction of cells with epitope-carrying Bet also induced T-cell responses, albeit with reduced efficacy, in a process independent from the presence of free peptides. We show that primate FV Bet is also a promising T cell epitope carrier for clinical translation. The data demonstrate the utility of replication-competent and -attenuated FVs as antigen carriers in immunotherapy.

Published
2015
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48. Tenth International Foamy Virus Conference 2014--achievements and perspectives.

Author

Materniak M, Kubiś P, Rola-Łuszczak M, Khan AS, Buseyne F, Lindemann D, Löchelt M, and Kuźmak J

Subjects
Animals, Biomedical Research trends, Cattle, Humans, Primates, Retroviridae Infections epidemiology, Retroviridae Infections immunology, Spumavirus genetics, Spumavirus immunology, Spumavirus pathogenicity, Retroviridae Infections veterinary, Retroviridae Infections virology, Spumavirus physiology
Abstract

For the past two decades, scientists from around the world, working on different aspects of foamy virus (FV) research, have gathered in different research institutions almost every two years to present their recent results in formal talks, to discuss their ongoing studies informally, and to initiate fruitful collaborations. In this report we review the 2014 anniversary conference to share the meeting summary with the virology community and hope to arouse interest by other researchers to join this exciting field. The topics covered included epidemiology, virus molecular biology, and immunology of FV infection in non-human primates, cattle, and humans with zoonotic FV infections, as well as recent findings on endogenous FVs. Several topics focused on virus replication and interactions between viral and cellular proteins. Use of FV in biomedical research was highlighted with presentations on using FV vectors for gene therapy and FV proteins as scaffold for vaccine antigen presentation. On behalf of the FV community, this report also includes a short tribute to commemorate Prof. Axel Rethwilm, one of the leading experts in the field of retrovirology and foamy viruses, who passed away 29 July 2014.

Published
2015
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49. Obituary: Axel Rethwilm (1959-2014).

Author

Berkhout B, Bodem J, Erlwein O, Herchenröder O, Khan AS, Lever AM, Lindemann D, Linial ML, Löchelt M, McClure MO, Scheller C, and Weiss RA

Subjects
Germany, History, 20th Century, History, 21st Century, Virology history
Published
2014
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50. Identification of novel, highly expressed retroviral microRNAs in cells infected by bovine foamy virus.

Author

Whisnant AW, Kehl T, Bao Q, Materniak M, Kuzmak J, Löchelt M, and Cullen BR

Subjects
Animals, Cattle, Cells, Cultured, Male, MicroRNAs genetics, RNA Processing, Post-Transcriptional, Retroviridae Infections virology, Cattle Diseases virology, Gene Expression, MicroRNAs biosynthesis, Retroviridae Infections veterinary, Spumavirus genetics, Spumavirus growth & development
Abstract

Unlabelled: While numerous viral microRNAs (miRNAs) expressed by DNA viruses, especially herpesvirus family members, have been reported, there have been very few reports of miRNAs derived from RNA viruses. Here we describe three miRNAs expressed by bovine foamy virus (BFV), a member of the spumavirus subfamily of retroviruses, in both BFV-infected cultured cells and BFV-infected cattle. All three viral miRNAs are initially expressed in the form of an ∼ 122-nucleotide (nt) pri-miRNA, encoded within the BFV long terminal repeat U3 region, that is subsequently cleaved to generate two pre-miRNAs that are then processed to yield three distinct, biologically active miRNAs. The BFV pri-miRNA is transcribed by RNA polymerase III, and the three resultant mature miRNAs were found to contribute a remarkable ∼ 70% of all miRNAs expressed in BFV-infected cells. These data document the second example of a retrovirus that is able to express viral miRNAs by using embedded proviral RNA polymerase III promoters., Importance: Foamy viruses are a ubiquitous family of nonpathogenic retroviruses that have potential as gene therapy vectors in humans. Here we demonstrate that bovine foamy virus (BFV) expresses high levels of three viral microRNAs (miRNAs) in BFV-infected cells in culture and also in infected cattle. The BFV miRNAs are unusual in that they are initially transcribed by RNA polymerase III as a single, ∼ 122-nt pri-miRNA that is subsequently processed to release three fully functional miRNAs. The observation that BFV, a foamy virus, is able to express viral miRNAs in infected cells adds to emerging evidence that miRNA expression is a common, albeit clearly not universal, property of retroviruses and suggests that these miRNAs may exert a significant effect on viral replication in vivo.

Published
2014
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