Analysis of PERV-C superinfection resistance using HA-tagged viruses
Abstract Background Using pigs as organ donors has advanced xenotransplantation to the point that it is almost ready for clinical use. However, there is still a zoonotic risk associated with xenotransplantation, and the potential transmission of porcine endogenous retroviruses needs to be surveyed....
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BMC
2023-08-01
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| Series: | Retrovirology |
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| Online Access: | https://doi.org/10.1186/s12977-023-00630-x |
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| author | Merle Flecks Nicole Fischer Jacomina Krijnse Locker Ralf R. Tönjes Antonia W. Godehardt |
| author_facet | Merle Flecks Nicole Fischer Jacomina Krijnse Locker Ralf R. Tönjes Antonia W. Godehardt |
| author_sort | Merle Flecks |
| collection | DOAJ |
| description | Abstract Background Using pigs as organ donors has advanced xenotransplantation to the point that it is almost ready for clinical use. However, there is still a zoonotic risk associated with xenotransplantation, and the potential transmission of porcine endogenous retroviruses needs to be surveyed. Despite significant attempts to eliminate this risk, by the selection of PERV-C free pigs with low expression of PERV-A, -B, and by the genome-wide inactivation of PERV using CRISPR/Cas9, the impact of superinfection resistance (SIR) was not investigated. SIR is a viral trait that prevents reinfection (superinfection). For PERV, the underlying mechanism is unclear, whether and how cells, that harbor functional PERV, are protected. Using PERV-C(5683) as a reference virus, we investigated SIR in a newly developed in vitro model to pursue the mechanism and confirm its protective effect. Results We developed three PERV-C constructs on the basis of PERV-C(5683), each of which carries a hemagglutinin tag (HA-tag) at a different position of the envelope gene (SP-HA, HA-VRA, and RPep-HA), to distinguish between primary infection and superinfection. The newly generated PERV-C(5683)-HA viruses were characterized while quantifying the viral RNA, reverse transcriptase activity, protein expression analysis, and infection studies. It was demonstrated that SP-HA and RPep-HA were comparable to PERV-C(5683), whereas HA-VRA was not replication competent. SP-HA and RPep-HA were chosen to challenge PERV-C(5683)-positive ST-IOWA cells demonstrating that PERV-C-HA viruses are not able to superinfect those cells. They do not integrate into the genome and are not expressed. Conclusions The mechanism of SIR applies to PERV-C. The production of PERV-C particles serves as a defense mechanism from superinfection with exogenous PERV-C. It was demonstrated by newly generated PERV-C(5683)-HA clones that might be used as a cutting-edge tool. The HA-tagging of PERV-C is novel, providing a blueprint for the tagging of other human tropic PERV viruses. The tagged viruses are suitable for additional in vitro and in vivo infection studies and will contribute, to basic research on viral invasion and pathogenesis. It will maintain the virus safety of XTx. |
| format | Article |
| id | doaj-art-ba46416a88054d5ebdcb608cf393b5a1 |
| institution | OA Journals |
| issn | 1742-4690 |
| language | English |
| publishDate | 2023-08-01 |
| publisher | BMC |
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| series | Retrovirology |
| spelling | doaj-art-ba46416a88054d5ebdcb608cf393b5a12025-08-20T02:01:34ZengBMCRetrovirology1742-46902023-08-0120111610.1186/s12977-023-00630-xAnalysis of PERV-C superinfection resistance using HA-tagged virusesMerle Flecks0Nicole Fischer1Jacomina Krijnse Locker2Ralf R. Tönjes3Antonia W. Godehardt4Division of Haematology, Cell and Gene Therapy, Paul-Ehrlich-InstitutDivision of Haematology, Cell and Gene Therapy, Paul-Ehrlich-InstitutLoewe-DRUID Research Group, Electron Microscopy of Pathogens, Paul-Ehrlich-InstitutDivision of Haematology, Cell and Gene Therapy, Paul-Ehrlich-InstitutDivision of Haematology, Cell and Gene Therapy, Paul-Ehrlich-InstitutAbstract Background Using pigs as organ donors has advanced xenotransplantation to the point that it is almost ready for clinical use. However, there is still a zoonotic risk associated with xenotransplantation, and the potential transmission of porcine endogenous retroviruses needs to be surveyed. Despite significant attempts to eliminate this risk, by the selection of PERV-C free pigs with low expression of PERV-A, -B, and by the genome-wide inactivation of PERV using CRISPR/Cas9, the impact of superinfection resistance (SIR) was not investigated. SIR is a viral trait that prevents reinfection (superinfection). For PERV, the underlying mechanism is unclear, whether and how cells, that harbor functional PERV, are protected. Using PERV-C(5683) as a reference virus, we investigated SIR in a newly developed in vitro model to pursue the mechanism and confirm its protective effect. Results We developed three PERV-C constructs on the basis of PERV-C(5683), each of which carries a hemagglutinin tag (HA-tag) at a different position of the envelope gene (SP-HA, HA-VRA, and RPep-HA), to distinguish between primary infection and superinfection. The newly generated PERV-C(5683)-HA viruses were characterized while quantifying the viral RNA, reverse transcriptase activity, protein expression analysis, and infection studies. It was demonstrated that SP-HA and RPep-HA were comparable to PERV-C(5683), whereas HA-VRA was not replication competent. SP-HA and RPep-HA were chosen to challenge PERV-C(5683)-positive ST-IOWA cells demonstrating that PERV-C-HA viruses are not able to superinfect those cells. They do not integrate into the genome and are not expressed. Conclusions The mechanism of SIR applies to PERV-C. The production of PERV-C particles serves as a defense mechanism from superinfection with exogenous PERV-C. It was demonstrated by newly generated PERV-C(5683)-HA clones that might be used as a cutting-edge tool. The HA-tagging of PERV-C is novel, providing a blueprint for the tagging of other human tropic PERV viruses. The tagged viruses are suitable for additional in vitro and in vivo infection studies and will contribute, to basic research on viral invasion and pathogenesis. It will maintain the virus safety of XTx.https://doi.org/10.1186/s12977-023-00630-xPorcine endogenous retrovirusSuperinfection resistanceXenotransplantationVirological safetyEnv proteinHA-tag |
| spellingShingle | Merle Flecks Nicole Fischer Jacomina Krijnse Locker Ralf R. Tönjes Antonia W. Godehardt Analysis of PERV-C superinfection resistance using HA-tagged viruses Retrovirology Porcine endogenous retrovirus Superinfection resistance Xenotransplantation Virological safety Env protein HA-tag |
| title | Analysis of PERV-C superinfection resistance using HA-tagged viruses |
| title_full | Analysis of PERV-C superinfection resistance using HA-tagged viruses |
| title_fullStr | Analysis of PERV-C superinfection resistance using HA-tagged viruses |
| title_full_unstemmed | Analysis of PERV-C superinfection resistance using HA-tagged viruses |
| title_short | Analysis of PERV-C superinfection resistance using HA-tagged viruses |
| title_sort | analysis of perv c superinfection resistance using ha tagged viruses |
| topic | Porcine endogenous retrovirus Superinfection resistance Xenotransplantation Virological safety Env protein HA-tag |
| url | https://doi.org/10.1186/s12977-023-00630-x |
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