BACKGROUND: Porcine endogenous retroviruses (PERVs) represent a risk of xenotransplantation using porcine cells, tissues, or organs, as they are integrated in the porcine genome and have been shown to be able to infect human cells in vitro. To increase viral safety by RNA interference, transgenic pigs expressing a PERV-specific small hairpin (sh)RNA targeted to a highly conserved sequence in the pol gene (pol2) were generated in which expression of PERVs was reduced (Xenotransplantation, 15, 2008, 38). However, it remains to be shown how long expression of the shRNA and the RNA interference is effective in reducing PERV expression. METHODS: To analyze the long-term duration of RNA interference, expression of the PERV-specific pol2 shRNA and inhibition of PERV expression was studied repeatedly in fibroblasts and peripheral blood mononuclear cells (PBMCs) of transgenic pigs over a period of 3 yr, when animals were sacrificed and expression was studied in different organs. Expression of the PERV-specific shRNA was measured using a newly developed real-time PCR, and expression of PERV was measured using a PERV-specific real-time PCR. RESULTS: Over a period of 3 yr, PERV-specific shRNA and green fluorescent protein (GFP) as reporter of the vector system were consistently expressed in transgenic animals. PERV expression was significantly reduced during the entire period. Levels of PERV and shRNA expression were different in the various organs. PERV expression was highest in the spleen and the lungs and lowest in liver and heart. However, in all organs of the transgenic pigs, PERV expression was inhibited compared with the vector control animals. CONCLUSIONS: Transgenic pigs expressing PERV-specific shRNA maintained their specific RNA interference long term, suggesting that PERV expression in the xenotransplants will be suppressed over extended periods of time.
BACKGROUND: Porcine endogenous retroviruses (PERVs) represent a risk of xenotransplantation using porcine cells, tissues, or organs, as they are integrated in the porcine genome and have been shown to be able to infect human cells in vitro. To increase viral safety by RNA interference, transgenic pigs expressing a PERV-specific small hairpin (sh)RNA targeted to a highly conserved sequence in the pol gene (pol2) were generated in which expression of PERVs was reduced (Xenotransplantation, 15, 2008, 38). However, it remains to be shown how long expression of the shRNA and the RNA interference is effective in reducing PERV expression. METHODS: To analyze the long-term duration of RNA interference, expression of the PERV-specific pol2 shRNA and inhibition of PERV expression was studied repeatedly in fibroblasts and peripheral blood mononuclear cells (PBMCs) of transgenic pigs over a period of 3 yr, when animals were sacrificed and expression was studied in different organs. Expression of the PERV-specific shRNA was measured using a newly developed real-time PCR, and expression of PERV was measured using a PERV-specific real-time PCR. RESULTS: Over a period of 3 yr, PERV-specific shRNA and green fluorescent protein (GFP) as reporter of the vector system were consistently expressed in transgenic animals. PERV expression was significantly reduced during the entire period. Levels of PERV and shRNA expression were different in the various organs. PERV expression was highest in the spleen and the lungs and lowest in liver and heart. However, in all organs of the transgenic pigs, PERV expression was inhibited compared with the vector control animals. CONCLUSIONS: Transgenic pigs expressing PERV-specific shRNA maintained their specific RNA interference long term, suggesting that PERV expression in the xenotransplants will be suppressed over extended periods of time.
Authors: David K C Cooper; Richard N Pierson; Bernhard J Hering; Muhammad M Mohiuddin; Jay A Fishman; Joachim Denner; Curie Ahn; Agnes M Azimzadeh; Leo H Buhler; Peter J Cowan; Wayne J Hawthorne; Takaaki Kobayashi; David H Sachs Journal: Transplantation Date: 2017-08 Impact factor: 4.939
Authors: Magdalena Kimsa-Dudek; Barbara Strzalka-Mrozik; Malgorzata W Kimsa; Irena Blecharz; Joanna Gola; Bartlomiej Skowronek; Adrian Janiszewski; Daniel Lipinski; Joanna Zeyland; Marlena Szalata; Ryszard Slomski; Urszula Mazurek Journal: Transgenic Res Date: 2015-03-27 Impact factor: 2.788
Authors: Urszula Mazurek; Magdalena C Kimsa; Barbara Strzalka-Mrozik; Malgorzata W Kimsa; Jolanta Adamska; Daniel Lipinski; Joanna Zeyland; Marlena Szalata; Ryszard Slomski; Jacek Jura; Zdzislaw Smorag; Roman Nowak; Joanna Gola Journal: Curr Microbiol Date: 2013-06-02 Impact factor: 2.188