Repression of porcine endogenous retrovirus infection by human APOBEC3 proteins

It has been shown that porcine endogenous retrovirus (PERV) can infect human cells, indicating that PERV transmission poses a serious concern in pig-to-human xenotransplantation. A number of recent studies have reported on retrovirus interference by antiviral proteins. The most potent antiviral proteins are members of the APOBEC family of cytidine deaminases, which are involved in defense against retroviral attack. These proteins are present in the cytoplasm of mammalian cells and inhibit retroviral replication. To evaluate the inhibition of PERV transmission by human APOBEC3 proteins, we co-transfected 293T cells with a PERV molecular clone and human APOBEC3F or APOBEC3G expression vectors, and monitored PERV replication competency using a quantitative analysis of PERV pol genes. The replication of PERVs in cells co-expressing human APOBEC3s was reduced by 60–90% compared with PERV-only control. These results suggest that human APOBEC3G and APOBEC3F might serve a potential barrier function against PERV transmission in xenotransplantation.     

Porcine endogenous retrovirus transmission characteristics of galactose alpha1-3 galactose-deficient pig cells

Galactose alpha1-3 galactose (Gal) trisaccharides are present on the surface of wild-type pig cells, as well as on viruses particles produced from such cells. The recognition of Gal sugars by natural anti-Gal antibodies (NAb) in human and Old World primate serum can cause the lysis of the particles via complement-dependent mechanisms and has therefore been proposed as an important antiviral mechanism. Recently, pigs have been generated that possess disrupted galactosyl-transferase (GGTA1) genes. The cells of these pigs do not express Gal sugars on their surface, i.e., are Gal null. Concerns have been raised that the risk of virus transmission from such pigs may be increased due to the absence of the Gal sugars. We investigated the sensitivity of porcine endogenous retrovirus (PERV) produced from Gal-null and Gal-positive pig cells to inactivation by purified NAb and human serum. PERV produced in Gal-null pig cells was resistant to inactivation by either NAb or human serum. In contrast, although Gal-positive PERV particles were sensitive to inactivation by NAb and human serum, they required markedly higher concentrations of NAb for inactivation compared to the Gal-positive cells from which they were produced. Complete inactivation of Gal-positive PERV particles was not achievable despite the use of high levels of NAb, indicating that NAb-mediated inactivation of cell-free PERV particles is an inefficient process.     

Human APOBEC3 Induced Mutation of Human Immunodeficiency Virus Type-1 Contributes to Adaptation and Evolution in Natural Infection

Human APOBEC3 proteins are cytidine deaminases that contribute broadly to innate immunity through the control of exogenous retrovirus replication and endogenous retroelement retrotransposition. As an intrinsic antiretroviral defense mechanism, APOBEC3 proteins induce extensive guanosine-to-adenosine (G-to-A) mutagenesis and inhibit synthesis of nascent human immunodeficiency virus-type 1 (HIV-1) cDNA. Human APOBEC3 proteins have additionally been proposed to induce infrequent, potentially non-lethal G-to-A mutations that make subtle contributions to sequence diversification of the viral genome and adaptation though acquisition of beneficial mutations. Using single-cycle HIV-1 infections in culture and highly parallel DNA sequencing, we defined trinucleotide contexts of the edited sites for APOBEC3D, APOBEC3F, APOBEC3G, and APOBEC3H. We then compared these APOBEC3 editing contexts with the patterns of G-to-A mutations in HIV-1 DNA in cells obtained sequentially from ten patients with primary HIV-1 infection. Viral substitutions were highest in the preferred trinucleotide contexts of the edited sites for the APOBEC3 deaminases. Consistent with the effects of immune selection, amino acid changes accumulated at the APOBEC3 editing contexts located within human leukocyte antigen (HLA)-appropriate epitopes that are known or predicted to enable peptide binding. Thus, APOBEC3 activity may induce mutations that influence the genetic diversity and adaptation of the HIV-1 population in natural infection.     

Ancient and modern retroviruses

Retroviruses are transmitted in two distinct ways: as infectious particles and as 'endogenous' proviral DNA integrated in the germ line of the host. Modern infectious viruses such as HIV-1 and HIV-2 recently infected mankind from chimpanzee and simian hosts, whereas human endogenous retroviral genomes have been present throughout old world primate evolution. Human T-cell leukemia viruses (HTLV-1 and II) have a much older human provenance than HIV, although new zoonoses from simians may also occur. We have recently characterized new retroviruses in pigs and humans. Porcine endogenous retroviral (PERV) genomes are carried in chromosomal DNA but can be activated to produce virions that are infectious for human cells, which has raised concern over human xenotransplantation using pig tissues. Human retrovirus 5 (HRV-5) is detected as an exogenous genome in association with arthritis and systemic lupus erythematosus.     

PERV在猪外周血白细胞DNA和组织mRNA中的表达及其差异性分析

为了解我国家猪猪内源性逆转录病毒(PERV)生物学的基本特征,为评价应用猪器官、组织、细胞进行猪一人间跨种移植的生物安全性提供理论基础。本文采用PCR方法调查12个家猪品系外周血白细胞DNA基因组PERV的生物学特征,并应用SS-SSCP、RFLP-PCR方法分析PERV基因片段的差异性及采用RT-PCR方法和半定量方法分析2个品系小型猪13种组织PERV表达的差异。结果表明12个品系猪外周血白细胞DNA基因组普遍存在PERV-A、-B基因序列,未发现单链构象多态性;部分品系猪PER Venv基因序列片段存在限制性片段长度多态性。分析2个品系13种组织均表达PERV-A、-B、-C,肾、淋巴结、肝为高表达器官,胰腺和脑组织为低表达器官,PERV-C mRNA丰度明显低于PERV-A、-B mRNA。PERV env存在限制性片段长度多态性、PERV-A存在碱基缺失和错配的现象,有可能在猪异种移植中构成PERV感染的潜在危险性,这是在猪异种移植过程中值得高度关注的问题。     

Quantitative Analysis of Porcine Endogenous Retroviruses in Different Organs of Transgenic Pigs Generated for Xenotransplantation

The pig appears to be the most promising animal donor of organs for use in human recipients. Among several types of pathogens found in pigs, one of the greatest problems is presented by porcine endogenous retroviruses (PERVs). Screening of the source pig herd for PERVs should include analysis of both PERV DNA and RNA. Therefore, the present study focuses on quantitative analysis of PERVs in different organs such as the skin, heart, muscle, and liver and blood of transgenic pigs generated for xenotransplantation. Transgenic pigs were developed to express the human α-galactosidase, the human α-1,2-fucosyltransferase gene, or both genetic modifications of the genome (Lipinski et al., Medycyna Wet 66:316–322, 2010; Lipinski et al., Ann Anim Sci 12:349–356, 2012; Wieczorek et al., Medycyna Wet 67:462–466, 2011). The copy numbers of PERV DNA and RNA were evaluated using real-time Q-PCR and QRT-PCR, respectively. Comparative analysis of all PERV subtypes revealed the following relationships: PERV A > PERV B > PERV C. PERV A and B were found in all samples, whereas PERV C was detected in 47 % of the tested animals. The lowest level of PERV DNA was shown in the muscles for PERV A and B and in blood samples for PERV C. The lowest level of PERV A RNA was found in the skin, whereas those of PERV B and C RNA were found in liver specimens. Quantitative analysis revealed differences in the copy number of PERV subtypes between various organs of transgenic pigs generated for xenotransplantation. Our data support the idea that careful pig selection for organ donation with low PERV copy number may limit the risk of retrovirus transmission to the human recipients.     

Evaluation of the potential risk of porcine endogenous retrovirus (PERV) infection in nude mice

Nude mice (BALB/c) were grafted with human 293 cells and PERV (porcine endogenous retrovirus)-IRES-EGFP (a packageable retroviral vector plasmid containing an internal ribosome entry site-enhanced green fluorescent protein)-producing pig PK15 cells in order to determine whether the pig cells could transmit PERV-IRES-EGFP to mice and human 293 cells in vivo. None of the transplanted human 293 cell lines were infected by PERV, but PCR analysis identified PERV-B provirus integration into both the heart and salivary gland of the inoculated nude mice. Our data indicate that hearts and salivary glands can be used to identify PERV-B receptors.     

Absence of replication of porcine endogenous retrovirus and porcine lymphotropic herpesvirus type 1 with prolonged pig cell microchimerism after pig-to-baboon xenotransplantation

Porcine endogenous retrovirus (PERV), porcine cytomegalovirus (PCMV), and porcine lymphotropic herpesvirus (PLHV) are common porcine viruses that may be activated with immunosuppression for xenotransplantation. Studies of viral replication or transmission are possible due to prolonged survival of xenografts in baboon recipients from human decay-accelerating factor transgenic or alpha-1,3-galactosyltransferase gene knockout miniature swine. Ten baboons underwent xenotransplantation with transgenic pig organs. Graft survival was 32 to 179 days. Recipient serial samples of peripheral blood mononuclear cells (PBMC) and plasma were analyzed for PCMV, PERV, and PLHV-1 nucleic acids and viral replication using quantitative PCR assays. The PBMC contained PERV proviral DNA in 10 animals, PLHV-1 DNA in 6, and PCMV in 2. PERV RNA was not detected in any PBMC or serum samples. Plasma PLHV-1 DNA was detected in one animal. Pig cell microchimerism (pig major histocompatibility complex class I and pig mitochondrial cytochrome c oxidase subunit II sequences) was present in all recipients with detectable PERV or PLHV-1 (85.5%). Productive infection of PERV or PLHV-1 could not be demonstrated. The PLHV-1 viral load did not increase in serum over time, despite prolonged graft survival and pig cell microchimerism. There was no association of viral loads with the nature of exogenous immune suppression. In conclusion, PERV provirus and PLHV-1 DNA were detected in baboons following porcine xenotransplantation. Viral detection appeared to be due to persistent pig cell microchimerism. There was no evidence of productive infection in recipient baboons for up to 6 months of xenograft function.     

The screening and identification of endogenous retrovirus free CEMPs

The endogenous retrovirus (ERV) is one kind ofretroviruses that integrated in the genome in the formof provirus and replicates with the proliferation of hostcells. The ERV may play a significant role in the evo-lution, pathology and physiology of animals[1]. Now,proviral sequences of ERV have been found in the ge-nome of many vertebrates, and the release of virionshas also been detected both in vivo and in vitro. Porcine endogenous retrovirus (PERV) embeddedin the genome of pigs belo…     

Evolutionarily conserved and non-conserved retrovirus restriction activities of artiodactyl APOBEC3F proteins

The APOBEC3 proteins are unique to mammals. Many inhibit retrovirus infection through a cDNA cytosine deamination mechanism. HIV-1 neutralizes this host defense through Vif, which triggers APOBEC3 ubiquitination and degradation. Here, we report an APOBEC3F-like, double deaminase domain protein from three artiodactyls: cattle, pigs and sheep. Like their human counterparts, APOBEC3F and APOBEC3G, the artiodactyl APOBEC3F proteins are DNA cytosine deaminases that locate predominantly to the cytosol and can inhibit the replication of HIV-1 and MLV. Retrovirus restriction is attributable to deaminase-dependent and -independent mechanisms, as deaminase-defective mutants retain significant anti-retroviral activity. However, unlike human APOBEC3F and APOBEC3G, the artiodactyl APOBEC3F proteins have an active N-terminal DNA cytosine deaminase domain, which elicits a broader dinucleotide deamination preference, and they are resistant to HIV-1 Vif. These data indicate that DNA cytosine deamination; sub-cellular localization and retrovirus restriction activities are conserved in mammals, whereas active site location, local mutational preferences and Vif susceptibility are not. Together, these studies indicate that some properties of the mammal-specific, APOBEC3-dependent retroelement restriction system are necessary and conserved, but others are simultaneously modular and highly adaptable.     

Human and rhesus APOBEC3D, APOBEC3F, APOBEC3G, and APOBEC3H demonstrate a conserved capacity to restrict Vif-deficient HIV-1

Successful intracellular pathogens must evade or neutralize the innate immune defenses of their host cells and render the cellular environment permissive for replication. For example, to replicate efficiently in CD4(+) T lymphocytes, human immunodeficiency virus type 1 (HIV-1) encodes a protein called viral infectivity factor (Vif) that promotes pathogenesis by triggering the degradation of the retrovirus restriction factor APOBEC3G. Other APOBEC3 proteins have been implicated in HIV-1 restriction, but the relevant repertoire remains ambiguous. Here we present the first comprehensive analysis of the complete, seven-member human and rhesus APOBEC3 families in HIV-1 restriction. In addition to APOBEC3G, we find that three other human APOBEC3 proteins, APOBEC3D, APOBEC3F, and APOBEC3H, are all potent HIV-1 restriction factors. These four proteins are expressed in CD4(+) T lymphocytes, are packaged into and restrict Vif-deficient HIV-1 when stably expressed in T cells, mutate proviral DNA, and are counteracted by HIV-1 Vif. Furthermore, APOBEC3D, APOBEC3F, APOBEC3G, and APOBEC3H of the rhesus macaque also are packaged into and restrict Vif-deficient HIV-1 when stably expressed in T cells, and they are all neutralized by the simian immunodeficiency virus Vif protein. On the other hand, neither human nor rhesus APOBEC3A, APOBEC3B, nor APOBEC3C had a significant impact on HIV-1 replication. These data strongly implicate a combination of four APOBEC3 proteins--APOBEC3D, APOBEC3F, APOBEC3G, and APOBEC3H--in HIV-1 restriction.     

猪皮肤成纤维细胞PERV体外和体内感染性的研究

为了解猪皮肤成纤维细胞PERV在体外和体内的感染性,通过建立猪皮肤成纤维细胞系,将所建细胞系与人胚胎肾293细胞体外共培养,并移植于严重联合免疫缺陷鼠(SCID鼠)皮下进行猪皮肤成纤维细胞PERV的体外和体内感染性实验。结果表明,猪皮肤成纤维细胞与人胚胎肾细胞共培养过程中,猪内源性逆转录病毒感染人胚胎肾细胞,进一步证实和拓宽了猪细胞PERV感染人细胞的范畴;猪皮肤成纤维细胞移植SCID鼠皮下后,导致SCID鼠发生猪细胞微嵌合(78．57％)和PERV在体内感染(85．71％)并且波及远离移植部位的多种组织或器官,但是并未检测出SCID鼠组织中表达PERV env RNA。这就证实了猪皮肤成纤维细胞PERV的体外感染性和在小鼠体内的感染性,但未能找到PERV在体内活跃复制的明显证据。因而,在猪异种移植过程中PERV传播的潜在危险仍然是必须高度重视的生物安全性问题。     

The significance of N-linked glycosylation in pig endogenous retrovirus infectivity

The significance of the envelope glycoprotein in the transmission of pig endogenous retrovirus (PERV) to human cells was investigated. Pig endothelial cells (PEC) were transduced with the LacZ gene by a pseudotype infection and then infected with PERV subtype B. Culture supernatants of the infected PEC previously incubated with several types of drugs were inoculated into HEK293 cells. The inoculated cells were then stained and the number of LacZ-positive foci was counted. PERV from tunicamycin treated PEC was not transmitted to human cells, indicating the importance of N-linked sugars in this process. Moreover, while inhibition of the terminal alpha-glucose residues from the precursor N-glycan by castanospermine and 1-deoxynojirimycin attenuated PERV infectivity, the mannosidase inhibitors, 1-deoxymannojirimycin and swainsonine, upregulated the infectivity. In addition, treatment with alpha-mannosidase and incubation with concanavalin A completely abrogated the transmission of PERV to HEK293. These data imply that the high-mannose type of N-glycan plays a key role in PERV infectivity.     

Human CD59 Incorporation into Porcine Endogenous Retrovirus Particles: Implications for the Use of Transgenic Pigs for Xenotransplantation

Transgenic pigs have been engineered to express human CD59 (hCD59) in order to suppress hyperacute rejection of xenotransplants in human recipients. In this study, porcine endogenous retrovirus (PERV) was produced in a porcine cell line expressing hCD59 in order to examine the effect of this complement control protein on PERV neutralization by human sera. hCD59 was found to be incorporated into PERV particles produced from engineered ST-IOWA cells. PERV incorporation of hCD59 resulted in a dramatic inhibition of complement-mediated virolysis by human serum. However, incorporation of hCD59 had no effect on neutralization of PERV by human serum, as measured in infectivity assays. Our results suggest that the use of organs from hCD59 transgenic pigs will inhibit complement-mediated virolysis, but will not compromise the protective effects of human sera on the neutralization of PERV particles.     

猪肝细胞和培养上清液中猪内源性逆转录病毒的检测

建立了猪肝细胞及其培养上清液中猪内源性逆转录病毒(PERV)的检测方法,探讨了其在猪肝细胞生物人工肝应用中的意义。以PERV gag基因为靶序列,选用特定的引物,PCR检测中国实验用小型猪肝细胞PERV前病毒DNA;RT-PCR检测猪、犬、大鼠以及HBV阳性病人血清和猪肝细胞培养6h、24h时的上清液PERV RNA,同时检测猪肝细胞猪线粒体DNA(mtDNA)。研究结果表明：检测5份中国实验用小型猪血清、肝细胞及培养猪肝细胞24h时的上清液PERV均为阳性,而5份培养猪肝细胞6h时的上清液、5份犬血清、5份大鼠血清和5份HBV阳性病人血清PERV检测结果均为阴性,猪肝细胞中均可检测到猪mtDNA。因此,中国实验用小型猪肝细胞携带PERV;PERV可释放到血清中;猪肝细胞培养24h后该病毒颗粒已释放到培养液中;PCR和RT-PCR方法检测PERV具有特异性强、简便的特点。     

Mice transgenic for a human porcine endogenous retrovirus receptor are susceptible to productive viral infection

Porcine endogenous retrovirus (PERV) is considered one of the major risks in xenotransplantation. No valid animal model has been established to evaluate the risks associated with PERV transmission to human patients by pig tissue xenotransplantation or to study the potential pathogenesis associated with PERV infection. In previous work we isolated two genes encoding functional human PERV receptors and proved that introduction of these into mouse fibroblasts allowed the normally nonpermissive mouse cells to become productively infected (T. A. Ericsson, Y. Takeuchi, C. Templin, G. Quinn, S. F. Farhadian, J. C. Wood, B. A. Oldmixon, K. M. Suling, J. K. Ishii, Y. Kitagawa, T. Miyazawa, D. R. Salomon, R. A. Weiss, and C. Patience, Proc. Natl. Acad. Sci. USA 100:6759-6764, 2003). In the present study we created mice transgenic for human PERV-A receptor 2 (HuPAR-2). After inoculation of transgenic animals with infectious PERV supernatants, viral DNA and RNA were detected at multiple time points, indicating productive replication. This establishes the role of HuPAR-2 in PERV infection in vivo; in addition, these transgenic mice represent a new model for determining the risk of PERV transmission and potential pathogenesis. These mice also create a unique opportunity to study the immune response to PERV infection and test potential therapeutic or preventative modalities.     

The screening and identification of endogenous retrovirus free CEMPs

The provirus DNA sequence of porcine endogenous retrovirus (PERV) distributed in the pig genome is the major obstacle that restricts the swine as the organ donors in xenotransplantation, and the copy number of PERV varies greatly among different breeds and individuals. In the experiment, 67 healthy, female Chinese Experimental Mini-Pigs (CEMPs) aged at 3–6 months were selected from the Animal Husbandry Station of China Agricultural University, the copy number of PERV and types of envelope protein gene (env) were then investigated by means of PCR analysis and Southern blotting. It is showed that the distribution of types of envelope protein gene in Landrace and CEMPs makes little difference, but the proportion of individuals carrying two types of envelope protein gene (env-A and env-B, which is denoted as env-AB) is much larger than those which carry only one type of envelope protein gene (env-A or env-B). Meanwhile, two endogenous retrovirus free pigs were found for the first time during our research, and the copy number of others is relatively low, which is about 10 to 20. All the results illuminate the genetic diversity of indigenous pig breeds in China and the potential of CEMPs to serve as organ donors in xenotransplantation.