Expression profile of human porcine endogenous retrovirus A receptors (HuPAR-1, HuPAR-2) and transcription factor activator protein-2γ (TFAP-2C) genes in infected human fibroblasts-Model in vitro.

BACKGROUND: Xenotransplantation of porcine tissues raises concerns, especially in the context of the potential interspecies transmission of porcine endogenous retroviruses (PERVs). To date, the possibility of PERV infections of various human cells has been confirmed in vitro. PERVs infect cells coupling viral Env protein with adequate functional receptor on the surface of the host cell. So far, two PERV-A receptors have been described in humans: HuPAR-1 and HuPAR-2. TFAP-2C was described as one of the transcription factors engaged in the expression of HuPAR-2. METHODS: Bacterial LPS, well known as a strong inflammation inducer, was used in this study to stimulate changes of the expression profile of inflammation-related genes in human cells in vitro. The aim of the study was to investigate the expression profile of HuPAR-1 and HuPAR-2 and TFAP-2C genes in human NHDF cells treated with LPS and/or infected with PERVs from PK15 cells. PERV infection and expression was confirmed by qPCR and RTqPCR. The expression of HuPAR-1, HuPAR-2, and TFAP-2C genes was studied using HGU 133A 2.0 microarrays and RTqPCR. RESULTS: NHDF cells expressed both HuPAR-1 and HuPAR-2 genes with a higher expression of HuPAR-1. LPS down-regulated the expression of HuPAR-1 and TFAP-2C in NHDF cells, but had no effect on HuPAR-2 expression. These changes induced by LPS were more pronounced in the presence of PERV infection. CONCLUSION: As reported previously, treatment of NHDF cells with LPS decreased PERV-A provirus integration and increased PERV-A mRNA expression. PERV infection alone did not modulate the expression of HuPAR-1, HuPAR-2, and TFAP-2C. This is the first study analyzing the expression profile of HuPAR-1, HuPAR-2, and TFAP-2C in NHDF cells treated by LPS and/or infected by PERVs.

Porcine Endogenous Retrovirus (PERV) - Molecular Structure and Replication Strategy in the Context of Retroviral Infection Risk of Human Cells.

The xenotransplantation of porcine tissues may help overcome the shortage of human organs for transplantation. However, there are some concerns about recipient safety because the risk of porcine endogenous retrovirus (PERV) transmission to human cells remains unknown. Although, to date, no PERV infections have been noted in vivo, the possibility of such infections has been confirmed in vitro. Better understanding of the structure and replication cycle of PERVs is a prerequisite for determining the risk of infection and planning PERV-detection strategies. This review presents the current state of knowledge about the structure and replication cycle of PERVs in the context of retroviral infection risk.

Porcine endogenous retroviruses in xenotransplantation--molecular aspects.

In the context of the shortage of organs and other tissues for use in human transplantation, xenotransplantation procedures with material taken from pigs have come under increased consideration. However, there are unclear consequences of the potential transmission of porcine pathogens to humans. Of particular concern are porcine endogenous retroviruses (PERVs). Three subtypes of PERV have been identified, of which PERV-A and PERV-B have the ability to infect human cells in vitro. The PERV-C subtype does not show this ability but recombinant PERV-A/C forms have demonstrated infectivity in human cells. In view of the risk presented by these observations, the International Xenotransplantation Association recently indicated the existence of four strategies to prevent transmission of PERVs. This article focuses on the molecular aspects of PERV infection in xenotransplantation and reviews the techniques available for the detection of PERV DNA, RNA, reverse transcriptase activity and proteins, and anti-PERV antibodies to enable carrying out these recommendations. These methods could be used to evaluate the risk of PERV transmission in human recipients, enhance the effectiveness and reliability of monitoring procedures, and stimulate discussion on the development of improved, more sensitive methods for the detection of PERVs in the future.

Quantitative Estimation of Porcine Endogenous Retrovirus Release from PK15 Cells.

The present study focuses on the assessment of porcine endogenous retrovirus (PERV) release from PK15 cells in a time dependent manner. The highest amount of PERV A RNA was detected in PK15 cells after 16 hours of culture. The highest amount of PERV B RNA was detected in PK15 cells after 20 hours. The highest amount of both subtypes RNAs was detected in culture medium after 32 hours of culture. The peaks of PERV reverse transcriptase (RT) activity were detected after 28 h of culture in PK15 cells and after 32 hours in the culture medium. The monitoring of PERV release from PK15 cell line may be useful for the evaluation of PERV replication.