@article{FluegelMaurerBannertetal.1987, author = {Fl{\"u}gel, Rolf M. and Maurer, Bernd and Bannert, Helmut and Rethwilm, Axel and Schnitzler, Paul and Darai, Gholamreza}, title = {Nucleotide sequence analysis of a cloned DNA fragment from human cells reveals homology to retrotransposons}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-61525}, year = {1987}, abstract = {During molecular cloning of proviral DNA of human. spumaretroVirus, various recombinant clones were estabUshed and analyzed. Blot hybridization revealed that one of the recoinbinant plasmids bad the characteristic features of a member of the long interspersed repetitive sequences famlly. The DNA element was analyzed by restrictioil mapping and nuelootide sequencing. It showed a high degree of amino acid sequence homology of 54.3\% when conipared with the 5'-terminal part of the pol gelie product of the murine retrotransposon LIMd. The 3' region of the cloned DNA element encodes proteins witb an even higher degree of homology of 67.4\% in comparison to the corresponding parts of a member of the primate Kpnl sequence family.}, subject = {Virologie}, language = {en} } @article{ErlweinRethwilm1993, author = {Erlwein, Otto and Rethwilm, Axel}, title = {BEL-1 transactivator responsive sequences in the long terminal repeat of human foamy virus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-61402}, year = {1993}, abstract = {No abstract available}, subject = {Virologie}, language = {en} } @article{CounsellKardaDiazetal.2018, author = {Counsell, John R. and Karda, Rajvinder and Diaz, Juan Antiano and Carey, Louise and Wiktorowicz, Tatiana and Buckley, Suzanne M. K. and Ameri, Shima and Ng, Joanne and Baruteau, Julien and Almeida, Filipa and de Silva, Rohan and Simone, Roberto and Lugar{\`a}, Eleonora and Lignani, Gabriele and Lindemann, Dirk and Rethwilm, Axel and Rahim, Ahad A. and Waddington, Simon N. and Howe, Steven J.}, title = {Foamy Virus Vectors Transduce Visceral Organs and Hippocampal Structures following In Vivo Delivery to Neonatal Mice}, series = {Molecular Therapy: Nucleic Acids}, volume = {12}, journal = {Molecular Therapy: Nucleic Acids}, doi = {10.1016/j.omtn.2018.07.006}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-223379}, pages = {626-634}, year = {2018}, abstract = {Viral vectors are rapidly being developed for a range of applications in research and gene therapy. Prototype foamy virus (PFV) vectors have been described for gene therapy, although their use has mainly been restricted to ex vivo stem cell modification. Here we report direct in vivo transgene delivery with PFV vectors carrying reporter gene constructs. In our investigations, systemic PFV vector delivery to neonatal mice gave transgene expression in the heart, xiphisternum, liver, pancreas, and gut, whereas intracranial administration produced brain expression until animals were euthanized 49 days post-transduction. Immunostaining and confocal microscopy analysis of injected brains showed that transgene expression was highly localized to hippocampal architecture despite vector delivery being administered to the lateral ventricle. This was compared with intracranial biodistribution of lentiviral vectors and adeno-associated virus vectors, which gave a broad, non-specific spread through the neonatal mouse brain without regional localization, even when administered at lower copy numbers. Our work demonstrates that PFV can be used for neonatal gene delivery with an intracranial expression profile that localizes to hippocampal neurons, potentially because of the mitotic status of the targeted cells, which could be of use for research applications and gene therapy of neurological disorders.}, language = {en} } @article{BrinkmannSchwinnMuelleretal.1993, author = {Brinkmann, R. and Schwinn, A. and M{\"u}ller, J. and Stahl-Hennig, C. and Coulibaly, C. and Hunsmann, G. and Czub, S. and Rethwilm, Axel and D{\"o}rries, R. and ter Meulen, Volker}, title = {In vitro and in vivo infection of rhesus monkey microglial cells by simian immunodeficiency virus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-61415}, year = {1993}, abstract = {The observation that microglial cells in brain tissue are probably a major target for human immunodeficiency virus (HIV) infection has raised interest in the pathogenic role of this cell population for the development of neuro-AIOS. Since it is very difficult to obtain microglia from normal or diseased human brain we studied microglial cells isolated from fresh brain tissue of uninfected and simian immunodeficiency virus (SIV) infected rhesus monkeys (Macacca mulatta) in comparison to peripheral blood macrophages. Besides the characterization of the phenotypes of these two cell populations, we examined the replication of SIV in the cells in addition to the effect of viral infection on the expression of cell surface molecules. We found that microglia and macrophages support replication of the wild-type SIV\(_{mac25}\), strain as well as the infectious clone (SIV\(_239\)). Infectious viruswas produced and a CPE developed. Isolated microglial cells from SIV-infected monkeys were latently infected independent of the presence of neuropathological lesions and produced infectious virus after 20-25 days in culture. In situ hybridization revealed that only a small percentage of isolated microglial cells are productively infected in vivo, yet the majority of these expressed MHC class II molecules. This indicated a state of activation that is acquired in vivo. These findings indicate that microglia are a prime target cell for SIV infection in CNS tissue.}, subject = {Virologie}, language = {en} } @article{BotheAguzziLassmannetal.1991, author = {Bothe, Katrin and Aguzzi, Adriano and Lassmann, Hans and Rethwilm, Axel and Horak, Ivan}, title = {Progressive encephalopathy and myopathy in transgenic mice expressing human foamy virus genes}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-61453}, year = {1991}, abstract = {Transgenie mice carrying the bel region of human foamy retrovirus (HFV) under transcriptional control of its own long terminal repeat expressed tbe transgene in their centrat nervous systems and in smootb and striated muscle tissues. The animals developed a progressive degenerative disease of tbe centrat nervous system and of the striated muscle. Because expression of tbe transgene was dosely correlated witb the appearance of structural damage and inflammatory reactions were scanty, the disease is likely to be caused directly by tbe HFV proteins. These unexpected findings call for a reevaluation of tbe patbogenic potential of HFV in humans.}, subject = {Virologie}, language = {en} } @article{BodemRethwilm2013, author = {Bodem, Jochen and Rethwilm, Axel}, title = {Evolution of Foamy Viruses: The Most Ancient of All Retroviruses}, series = {Viruses}, journal = {Viruses}, doi = {10.3390/v5102349}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-97312}, year = {2013}, abstract = {Recent evidence indicates that foamy viruses (FVs) are the oldest retroviruses (RVs) that we know and coevolved with their hosts for several hundred million years. This coevolution may have contributed to the non-pathogenicity of FVs, an important factor in development of foamy viral vectors in gene therapy. However, various questions on the molecular evolution of FVs remain still unanswered. The analysis of the spectrum of animal species infected by exogenous FVs or harboring endogenous FV elements in their genome is pivotal. Furthermore, animal studies might reveal important issues, such as the identification of the FV in vivo target cells, which than require a detailed characterization, to resolve the molecular basis of the accuracy with which FVs copy their genome. The issues of the extent of FV viremia and of the nature of the virion genome (RNA vs. DNA) also need to be experimentally addressed.}, language = {en} } @article{BaunachMaurerHahnetal.1993, author = {Baunach, Gerald and Maurer, Bernd and Hahn, Heidi and Kranz, Manuela and Rethwilm, Axel}, title = {Functional analysis of human foamy virus accessory reading frames}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-61398}, year = {1993}, abstract = {No abstract available}, subject = {Virologie}, language = {en} } @article{AguzziWagnerNetzeretal.1993, author = {Aguzzi, A. and Wagner, E. F. and Netzer, K. O. and Bothe, K. and Anhauser, I. and Rethwilm, Axel}, title = {Human foamy virus proteins accumulate in neurons and induce multinucleated giant cells in the brain of transgenic mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-47356}, year = {1993}, abstract = {Humanfoamy virus (HFV) is a retrovirus encoding structural genes and, like human immunodeficiency virus and human T ceU leukemia virus I, several anciUary reading frames collectively termed the belgenes. We have previously shown that HFV transgenic mice develop an encephalopathy with neuronal loss in hippocampus and cerebral cortex. We have now raised and characterized rabbit antisera to various recombinant portions of gag, pot, env, and bel-I, the viraltransactivator. Immunoreactivity for gag and bel-I was observed in nuclei and processes of hippocampal and cortical neurons before the onset of morphological lesions and correlated with the appearance of HFV mRNA. Astrocyte-derived multinucleated giant ceUs containing HFV proteins were present in the brain oftransgenic mice coexpressingfuU- length HFV genes but not in mice expressing truncated gag and env, suggesting that these genes contain afusogenic domain. Expression of fuU-length structural genes decreased the life expectancy oftransgenic mice, implying an a4Juvant rolefor these proteins in HFV-induced brain damage. (Am] Pathol 1993, 142:1061-1072)}, subject = {Molekularpathologie}, language = {en} } @article{AguzziBothAnhauseretal.1992, author = {Aguzzi, A. and Both, K. and Anhauser, I. and Horak, I. and Rethwilm, Axel and Wagner, EF.}, title = {Expression of human foamy virus is differentially regulated during development in transgenic mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-55290}, year = {1992}, abstract = {Tbe human foamy virus (HFV) is a recently characterized member ofthe spumavirus family. Although no diseases have been unequivocally associated with HFV infection, expression of HFV regulatory genes in transgenie mice induces a characteristic aeute neuro degenerative disease and a myopathy. To better eharaeterize the sequenee of events leading to disease, and to gain a better understanding of the underlying pathogenetic meehanisms, we have analyzed in detail the transgene expression pattern during development. Transcription of a construet containing all regulatory elements and aneillary genes of mv was analyzed by in situ hybridization and was shown to occur in two distinct phases. At midgestation, low but widespread expression was first deteeted in eells of extraembryonie tissues. Later, various tissues originating from embryonie mesoderm, neuroeetoderm, and neural erest transeribed the transgene at moderate levels. However, expression deereased dramatically during late gestation and was suppressed shortly after birth. After a latency period of up to 5 weeks, transeription of the transgene resumed in single eelJs distributed irregularly in the central nervous system and in the skeletal museIe. By the age of 8 weeks, an increasing number of eells displayed much higher expression levels than in embryonie Iife and eventually underwent severe degenerative ehanges. These findings demonstrate that HFV transgene expression is differentially regulated in development and that HFV cytotoxicity may be dose-dependent. Such biphasic pattern of expression differs from that of murine retroviruses and may be explained by the specificity of HFV regulatory elements in combination with cellular faetors. Future studies of this model system should, therefore, provide novel insights in the mechanisms controlling retrovirallatency.}, subject = {Virologie}, language = {en} }