Different classes of porcine endogenous retroviruses (PERVs), which have the potential to infect humans during xenotransplantation, have been isolated from the pig genome. Because vertebrate genomes may contain numerous endogenous retrovirus sequences, the pig genome was examined for additional endogenous retroviruses, resulting in the isolation of a novel, complete endogenous retrovirus genome, designated PERV-E. The gag, pol and env genes of PERV-E are closely related to those of human endogenous retrovirus (HERV) 4-1, which belongs to the HERV-E family. Results of studies to determine the presence and copy number of PERVs demonstrated that PERV-E and PERV-A/B-like proviruses were present in all genomes tested, but that PERV-C was not found in two of the species examined, including wild boar. Multiple copies of PERVs could be found in each pig genome. Among all of the pig genomes tested, the wild boar genome had the lowest copy number of all PERVs, suggesting that the number of integrations of complete endogenous retroviruses is increased by inbreeding. Xenotransplantation shows great promise for providing a virtually limitless supply of cells, tissues and organs for a variety of therapeutical procedures (Deacon et al., 1997 ; Bengtsson et al., 1998 ; Groth et al., 1994). The tissues and organs of domestic pigs are preferred for xenotransplantation because of their fundamental physiological compatibility with human organs compared to those of other mammals, such as the baboon (van der Kuyl & Goudsmit, 1999 ; Auchincloss & Sachs, 1998). Pigs can be bred and maintained under exogenous-pathogen-free conditions to
A complete endogenous type D viral genome has been isolated from a baboon genomic library. The provirus, simian endogenous retrovirus (SERV), is 8,393 nucleotides long and contains two long terminal repeats and complete genes for gag, pro, pol, and env. The primer binding site is complementary to tRNA 3 Lys , like in lentiviruses. The env GP70 protein is highly homologous to that of baboon endogenous virus (BaEV). PCR analysis of primate DNA showed that related proviral sequences are present in Old World monkeys of the subfamily Cercopithecinae but not in apes and humans. Analysis of virus and host sequences indicated that the proviral genomes were inherited from a common ancestor. Comparison of the evolution of BaEV, exogenous simian retrovirus types 1 to 3 (SRV1 to SRV3), and SERV suggests that SERV is ancestral to both BaEV and the SRVs.
A complete endogenous type C viral genome has been isolated from a baboon genomic library. The provirus, Papio cynocephalusendogenous retrovirus (PcEV), is 8,572 nucleotides long, and 38 to 59 proviral copies per baboon genome are found. The PcEV provirus possesses the typical simple retroviral gene organization, including two long terminal repeats and genes encoding gag, pol, and env proteins. The open reading frames for gag-pol andenv are complete but have premature stop codons or frameshift mutations. The primer binding site of PcEV is complementary to tRNAGly. The gag and pol genes of PcEV are closely related to those of the baboon endogenous virus (BaEV). The env coding region of PcEV is related to theenv genes of type C retroviruses. This suggests that PcEV is one of the ancestors of BaEV contributing the type Cgag-pol genome fragment to the type C/D recombinant virus BaEV. Earlier it was shown that another endogenous type D virus (simian endogenous retrovirus) provided the env gene for BaEV (A. C. van der Kuyl et al., J. Virol. 71:3666–3676, 1997).
To study the evolutionary history of Papio cynocephalus endogenous retrovirus (PcEV), we analyzed the distribution and genetic characteristics of PcEV among 17 different species of primates. The viral pol-env and long terminal repeat and untranslated region (LTR-UTR) sequences could be recovered from all Old World species of the papionin tribe, which includes baboons, macaques, geladas, and mangabeys, but not from the New World monkeys and hominoids we tested. The Old World genera Cercopithecus and Miopithecus hosted either a PcEV variant with an incomplete genome or a virus with substantial mismatches in the LTR-UTR. A complete PcEV was found in the genome of Colobus guereza-but not in Colobus badius-with a copy number of 44 to 61 per diploid genome, comparable to that seen in papionins, and with a sequence most closely related to a virus of the papionin tribe. Analysis of evolutionary distances among PcEV sequences for synonymous and nonsynonymous sites indicated that purifying selection was operational during PcEV evolution. Phylogenetic analysis suggested that possibly two subtypes of PcEV entered the germ line of a common ancestor of the papionins and subsequently coevolved with their hosts. One strain of PcEV was apparently transmitted from a papionin ancestor to an ancestor of the central African lowland C. guereza.
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