The porcine endogenous retrovirus long terminal repeat contains a single nucleotide polymorphism that confers distinct differences in estrogen receptor binding affinity between PERV A and PERV B/C subtypes

Promoter activity analysis and methylation characterization of LTR elements of PERVs in NIH miniature pig

The potential risk of porcine endogenous retrovirus (PERV) transmission is an important issue in xenotransplantation (pig-to-human transplantation). Long terminal repeats (LTRs) in PERV elements show promoter activity that could affect neighboring functional genes. The methylation status and promoter activities of 3 LTR structures (PERV-LTR1, LTR2, and LTR3 elements) belonging to the PERV-A family were examined using luciferase reporter genes in human liver cell lines (HepG2 and Hep3B). The PERV LTR3 element exhibited hypomethylation and stronger promoter activity than the other LTR elements in human liver cells. We also performed comparative sequences analysis of the PERV LTR elements by using bioinformatics tools. Our findings showed that several transcription factors such as Nkx2-2 and Elk-1 positively influenced the high transcriptional activity of the PERV LTR3 element.

Role of DNA methylation in expression and transmission of porcine endogenous retroviruses

Porcine endogenous retroviruses (PERV) represent a major safety concern in pig-to-human xenotransplantation. To date, no PERV infection of a xenograft recipient has been recorded; however, PERVs are transmissible to human cells in vitro. Some recombinants of the A and C PERV subgroups are particularly efficient in infection and replication in human cells. Transcription of PERVs has been described in most pig cells, but their sequence and insertion polymorphism in the pig genome impede identification of transcriptionally active or silenced proviral copies. Furthermore, little is known about the epigenetic regulation of PERV transcription. Here, we report on the transcriptional suppression of PERV by DNA methylation in vitro and describe heavy methylation in the majority of PERV 5' long terminal repeats (LTR) in porcine tissues. In contrast, we have detected sparsely methylated or nonmethylated proviruses in the porcine PK15 cells, which express human cell-tropic PERVs. We also demonstrate the resistance of PERV DNA methylation to inhibitors of methylation and deacetylation. Finally, we show that the high permissiveness of various human cell lines to PERV infection coincides with the inability to efficiently silence the PERV proviruses by 5'LTR methylation. In conclusion, we suggest that DNA methylation is involved in PERV regulation, and that only a minor fraction of proviruses are responsible for the PERV RNA expression and porcine cell infectivity.

Identification and molecular characterization of PERV gamma1 long terminal repeats

Porcine endogenous retroviruses (PERVs) gamma1 in the pig genome have the potential to act as harmful factors in xenotransplantation (pig-to-human). Long terminal repeats (LTRs) are known to be strong promoter elements that could control the transcription activity of PERV elements and the adjacent functional genes. To investigate the transcribed PERV gamma1 LTR elements in pig tissues, bioin-formatic and experimental approaches were conducted. Using RT-PCR amplification and sequencing approaches, 69 different transcribed LTR elements were identified. And 69 LTR elements could be divided into six groups (15 subgroups) by internal variation including tandem repeated sequences, insertion and deletion (INDEL). Remarkably, all internal variations were indentified in U3 region of LTR elements. Taken together, the identification and characterization of various PERV LTR transcripts allow us to extend our knowledge of PERV and its transcriptional study.

Effect of 17beta-estradiol and progesterone on the expression of FeLV in chronically infected cells

In a previous study, it was found that even though more male cats were infected by feline leukaemia virus (FeLV), females seemed to progress easier to overt disease. To study the effect of female hormones, 17beta-estradiol and progesterone were added in different concentrations (10(-3) M to 10(-12) M) to a culture of persistently FeLV-infected cells. The effect of both hormones was very similar. After 24 h the cell viability was very low at 10(-3) M and 10(-4) M but similar to controls at the remaining concentrations. Liberation of viral particles was estimated by the reverse transcriptase activity (RT), which was the lowest also at 10(-3) M and 10(-4) M. However, low viability could not account for this low RT, as when cells were lysed with lysis buffer RT was high. Thus, cells were dying without freeing viral particles, suggestive of apoptosis. This possibility was confirmed by staining hormone-treated cells with annexin V and propidium iodide. The FeLV antigen p27 measured in the cultures had a maximum at 10(-3) M and 10(-4) M, higher than controls and lysed cells, so the presence of p27 in the supernatant was not only due to cell lysis but a consequence of hormone effect. In conclusion, 17beta-estradiol and progesterone induce death of FeLV-infected cells at high concentrations, probably through a process of apoptosis, which might limit the spread of the infection, as infective viral particles would be hampered from budding.

Characterization of germline porcine endogenous retroviruses from Large White pig

Porcine endogenous retroviruses (PERV) are of concern when the microbiological safety aspects of xenotransplantation are considered. Four unique isolates of PERV B have been identified previously from a lambda library constructed from genomic DNA from a Large White pig. This study shows that none of these isolates are replication competent when transfected into permissive human or pig cells in vitro, and the removal of flanking genomic sequences does not confer a human tropic replication competent (HTRC) phenotype on these PERV proviruses. Analysis of the envelope sequences revealed that PERV B demonstrated high similarity to the envelope sequences derived from replication-competent PERV, indicating that lack of replication competence does not appear to be attributable to this region of the provirus. These data complement recent findings that HTRC PERV are recombinants between the PERV A and PERV C subgroups, and that these recombinants are not present in the germline of miniature swine. Together, these results indicate that these individual PERV B proviruses are unlikely to give rise to HTRC PERV.

Transcriptional regulation of porcine endogenous retroviruses released from porcine and infected human cells by heterotrimeric protein complex NF-Y and impact of immunosuppressive drugs

Recent studies revealed a significant promoter activity of porcine endogenous retrovirus (PERV) long terminal repeats (LTRs) in different human and mammalian cell lines, which is mediated by a 39-bp repeat located in the U3 region in different numbers, representing an enhancer (G. Scheef, N. Fischer, U. Krach, and R. R. Tönjes, J. Virol. 75:6933-6940, 2001). A statistical transcription factor analysis revealed putative binding sites for the CCAAT-binding transcription factor NF-Y inside the 39-bp repeat. Specific binding of NF-Y to the repeat sequence was demonstrated by electrophoretic mobility shift assays and supershift assays with specific antibodies directed against the three subunits of NF-Y. To identify further transcription-regulating elements, genetically modified LTRs lacking the repeat box, U3, R, or U5 were investigated. The results indicated a strong inhibitory element in the R region, as the deletion of R caused a significantly increased promoter activity. Since PERV might play a potential role in the application of xenogeneic cell therapy and xenotransplantation techniques, we have investigated whether immunosuppressive drugs that are routinely used in transplantation medicine have an impact on the promoter activity. Neither cyclosporine nor prednisolone had any influence on the promoter strength of the PERV LTRs. By performing a real-time PCR we were able to compare the proviral loads of porcine and infected human cells as well as the amount of released virions, which revealed a direct link between LTR activity and the number of released retroviruses.

Virus safety in xenotransplantation: first exploratory in vivo studies in small laboratory animals and non-human primates

For xenotransplantation, the transplantation of animal cells, tissues and organs into human recipients, to date, pigs are favored as potential donors. Beside ethical, immunological, physiological and technical problems, the microbiological safety of the xenograft has to be guaranteed. It will be possible to eliminate all of the known porcine microorgansims in the nearby future by vaccinating or specified pathogen-free breeding. Thus, the main risk will come from the porcine endogenous retroviruses (PERVs) which are present in the pig genome as proviruses of different subtypes. PERVs will therefore be transmitted, with the xenograft, to the human recipient. PERVs can infect numerous different types of human primary cells and cell lines in vitro and were shown to adapt to these cells by serial passaging on uninfected cells. Furthermore, PERVs have high homology to other retroviruses, such as feline leukemia virus (FeLV) or murine leukemia virus (MuLV), which are known to induce tumors or immunodeficiencies in the infected host. To evaluate the potential risk of a trans-species transmission of PERV in vivo, naive and immunosuppressed rats, guinea pigs and minks were inoculated with PERV and screened over a period of 3 months for an antibody reaction against PERV proteins or for the integration of proviral DNA into the genomic DNA of the host's cells. Furthermore, we inoculated three different species of non-human primates, rhesus monkey (Macaca mulatta), pig-tailed monkey (Macaca nemestrina) and baboon (Papio hamadryas) with high titers of a human-adapted PERV. To simulate a situation in xenotransplantation, the animals received a daily triple immunosuppression using cyclosporine A, methylprednisolone and RAD, a rapamycin derivative, presently under development by Novartis. None of the small laboratory animals or the non-human primates showed production of antibodies against PERV or evidence of integration of proviral DNA in blood cells or cells of several organs, 3 months after virus inoculation, despite the observation that cells of the animals used in the experiment were infectible in vitro. This apparent difference in the outcome of the in vitro and the in vivo data might be explained by an efficient elimination of the virus by the innate or adaptive immunity of the animals.

Porcine endogenous retrovirus transmission characteristics of an inbred herd of miniature swine

Here we report the identification of inbred miniature swine that failed to produce human-tropic replication-competent porcine endogenous retroviruses (HTRC PERVs), using in vitro coculture assays. When HTRC PERVs were isolated from transmitting animals, all were recombinant viruses, with the receptor-binding domain of PERV-A combining with PERV-C-related sequences.