We identified a new subgroup of koala retrovirus (KoRV), named KoRV-J, which utilizes thiamine transport protein 1 as a receptor instead of the Pit-1 receptor used by KoRV (KoRV-A). By subgroup-specific PCR, KoRV-J and KoRV-A were detected in 67.5 and 100% of koalas originating from koalas from northern Australia, respectively. Altogether, our results indicate that the invasion of the koala population by KoRV-J may have occurred more recently than invasion by KoRV-A.
Sequences of retroviral origin occupy approximately 10% of mammalian genomes. Various infectious endogenous retroviruses (ERVs) and functional retroviral elements have been reported for several mammals but not cattle. Here, we identified two proviruses, designated bovine endogenous retrovirus K1 (BERV-K1) and BERV-K2, containing full-length envelope (env) genes in the bovine genome. Phylogenetic analysis revealed that they belong to the genus Betaretrovirus. By reverse transcription (RT)-PCR, both BERV-K1 and -K2 env mRNAs were detected in the placenta and cultured bovine trophoblast cells. Real-time RT-PCR analysis using RNAs isolated from various bovine tissues revealed that BERV-K1 env mRNA was preferentially expressed in the placenta. Moreover, we also found the expression of doubly spliced transcripts, named the REBK1 and REBK2 genes. Both the REBK1 and REBK2 proteins have motifs for a putative nuclear localization signal and a nuclear export signal. REBK1 and REBK2 fused with green fluorescent proteins were localized mainly in the nuclei when they were expressed in bovine and porcine cells. In the env and 3 long terminal repeats of BERV-K1 and -K2, we found regulatory elements responsible for the splicing and transport of viral RNAs and/or translation of the env genes. Although we have not identified the expressed Env proteins in bovine tissues, these data suggest that both BERV-K1 and BERV-K2 express Env proteins and that these proteins may have physiological functions in vivo.Endogenous retroviruses (ERVs) are retroviruses which have integrated their proviral genome into host germ line cells, and evidently, they have been found to occupy approximately 10% of the host genome in mammals (14, 33). Although most ERVs have been inactivated by mutations and/or deletions, a few open reading frames (ORFs) of ERVs are still active, leading to viral protein expression in their hosts. Interestingly, the envelope (Env) proteins of ERVs have been reported to be preferably expressed in the placenta and are involved in placental morphogenesis in various mammals, including humans, sheep, mice, and rabbits (2,7,8,9,11,23). The Env protein of human endogenous retrovirus W (HERV-W), also named syncytin-1, is expressed in trophoblast cells and induces cell fusion in vitro (23). The Env protein of endogenous Jaagsiekte sheep retrovirus (JSRV) (enJSRV) is expressed in trophectodermal cells and is essential for the growth and differentiation of the cells but not cell fusion in the peri-implantation conceptus (7). Homozygous syncytin-A-null mouse embryos were shown to die in utero between 11.5 and 13.5 days of gestation, and the syncytin-A-deficient placenta results in the specific disruption of the architecture of the syncytiotrophoblast-containing labyrinth, with trophoblast cells failing to fuse into an interhemal syncytial layer (9). This evidence suggests the coevolution of ERVs and mammals following the invasion of ancestral retroviruses in mammals.Cattle (family Bovidae, genus Bos) are one of the most common farm animals...
Koala retrovirus (KoRV) is considered to be associated with leukemia, lymphoma and immunodeficiency-like diseases in koalas. We therefore conducted a pilot study of KoRV infection in five Queensland koalas in Kobe Municipal Oji Zoo. By polymerase chain reaction to detect partial env and pol genes of KoRV in genomic DNA isolated from whole blood and feces, all five koalas were found to be positive for KoRV proviruses. We succeeded in culturing koala lymphocytes from less than 1 ml blood for over 14 days in the presence of recombinant human interleukin-2. By coculturing the lymphocytes with human embryonic kidney (HEK) 293T cells, we isolated KoRVs from all five koalas. We designated these isolates as strains OJ-1 to OJ-5. By electron microscopy, we observed C-type retroviral particles in HEK 293T cells chronically infected with KoRV strain OJ-4. This is the first report on the isolation of KoRV from koalas in a Japanese zoo.
ABSTRACT. Cats have an infectious endogenous retrovirus, named RD114 virus, and there is a possibility that RD114 virus has contaminated live attenuated vaccines, for which feline cells are used as a substrate. To monitor infectious RD114 virus in vaccines for cats, we developed a LacZ marker rescue assay to detect infectious RD114 virus. Among four human cell lines examined, TE671 cells (human rhabdomyosarcoma) were most susceptible to RD114 virus and supported RD114 replication efficiently. Infection was enhanced approximately 5 times by the addition of polybrene at concentrations of 2 to 8 µg/ml in the medium during viral adsorption. A 4-hr viral adsorption period was sufficient to obtain the maximum titer. By inoculating samples into TE671 cells transduced with the lacZ marker gene, the limiting diluted sample (i.e., less than 10 infectious units) was detected at 12 days post-inoculation by the LacZ marker rescue assay. Based on the results obtained in this study, we propose a standard protocol of the LacZ marker rescue assay to detect infectious RD114 virus.
a b s t r a c tKoala retrovirus (KoRV) is a gammaretrovirus which may induce immune suppression, leukemia and lymphoma in koalas. Currently three KoRV subgroups (A, B, and J) have been reported. Our phylogenetic analysis suggests that KoRV-B and KoRV-J should be classified as the same subgroup. In long terminal repeat (LTR), a KoRV-B isolate has four 17 bp tandem repeats named direct repeat (DR)-1, while a KoRV-J isolate (strain OJ-4) has three 37 bp tandem repeats named DR-2. We also found that the promoter activity of the KoRV-J strain OJ-4 is stronger than that of original KoRV-A, suggesting that KoRV-J may replicate more efficiently than KoRV-A.
c Koala retrovirus (KoRV) is a gammaretrovirus that is currently endogenizing into koalas. Studies on KoRV infection have been hampered by the lack of a replication-competent molecular clone. In this study, we constructed an infectious molecular clone, termed plasmid pKoRV522, of a KoRV isolate (strain Aki) from a koala reared in a Japanese zoo. The virus KoRV522, derived from pKoRV522, grew efficiently in human embryonic kidney (HEK293T) cells, attaining 10 6 focus-forming units/ml. Several mutations in the Gag (L domain) and Env regions reported to be involved in reduction in viral infection/production in vitro are found in pKoRV522, yet KoRV522 replicated well, suggesting that any effects of these mutations are limited. Indeed, a reporter virus pseudotyped with pKoRV522 Env was found to infect human, feline, and mink cell lines efficiently. Analyses of KoRV Ldomain mutants showed that an additional PPXY sequence, PPPY, in Gag plays a critical role in KoRV budding. Altogether, our results demonstrate the construction and characterization of the first infectious molecular clone of KoRV. The infectious clone reported here will be useful for elucidating the mechanism of endogenization of the virus in koalas and screening for antiretroviral drugs for KoRV-infected koalas.
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