PERV病毒在异种移植中的感染风险及预防对策

猪与人体在器官结构、生理解剖上相似性高,被认为是最佳的异种移植供体,能够有效解决人类供体器官短缺的问题。猪内源性逆转录病毒(porcine endogenous retrovirus, PERV)是一种C型逆转录病毒,以一种前病毒DNA的形式整合在猪的细胞基因组中,随细胞染色体的复制而复制,无法通过无特定病原体(specific pathogen-free, SPF)培育消除,其在异种移植中具有潜在的感染风险。了解PERV的特性,探索PERV预防策略,将有助于猪作为异种移植供体在临床的应用。     

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。     

湖南沙子岭猪内源性逆转录病毒的研究

为评价从猪到人异种移植的生物安全性提供依据,从湖南沙子岭猪的保种群内随机采集31头个体的耳样组织,应用PCR和RT-PCR技术分别检测这些组织中内源性逆转录病毒（porcine endogenous retrovirus,PERV）的前病毒DNA和mRNA,并对PCR扩增的灵敏性进行评估。多组织RT-PCR检测3头沙子岭猪肾、心、肝、肺、脾 等组织中PERV的表达情况,了解其在各组织中的分布情况;最后,扩增、测序该猪种的env基因,结果用NCBI中的BLAST软件进行分析。PCR和RT-PCR结果表明,所检测的31头沙子岭猪均带有PERV前病毒DNA,耳样组织中均有PERV mRNA表达,其中有2头个体携带 env-A、env-B、env-C 3种囊膜蛋白基因,而其余的29头个体只带有env-A、env-B 两种囊膜蛋白基因,未检测到env-C基因。多组织RT-PCR扩增结果表明,3头沙子岭猪的肾、心、肝、肺、脾等组织中,pol、gag、env-A、env-B 基因均有表达,未检测到env-C基因表达。测序沙子岭猪的env基因,结果发现,沙子岭猪env-B 和env-C基因与其他猪种序列比较分别存在2 和10个碱基的差异,而env-A基因序列没有差异,说明不同的猪种之间 env基因存在多态性。以上结果表明,沙子岭猪种群携带PERV,其亚型主要以PERV-A,B为主;PERV在该猪种肾、心、肝、肺、脾等多种组织中的分布没有明显组织特异性,且93.5 % (29/31)个体表现为 env-C 基因缺失,提示沙子岭猪作为候选猪种可能在异种移植中具有较好的应用前景。     

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。     

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-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PERV env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、PERVA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.     

应用RNA干扰沉默猪内源性反转录病毒

目的:尝试应用RNA干扰(RNAi)沉默猪源PK-15细胞中的猪内源性反转录病毒(PERV),并通过反转录酶活性及pol基因相对荧光定量PCR检测沉默效果。方法:依据GenBank公布的PERV pol基因序列,采用Invitro-gen公司的BLOCK-iT RNAi Designer软件设计Stealth小干扰RNA(siRNA)序列;将合成的siRNA转染PK-15细胞,72 h后检测细胞上清PERV反转录酶活性及细胞内pol基因拷贝数并评价沉默效果。结果:反转录酶活性及pol基因拷贝数检测结果表明,设计的3条Stealth siRNA序列中,位于pol基因3272～3296 bp的序列能有效沉默PERV。结论:RNAi方法可有效使猪源PK-15细胞中的PERV沉默,为进一步研究天然抗病毒分子与PERV的相互作用提供了实验基础,同时也为猪源异种移植研究中去除PERV提供了一种可供尝试的方法。     

异种器官移植：前景如何？

目前异种器官移植在进入临床的过程中存在两大难题——免疫排斥和病原微生物感染.人类为防止免疫排斥而采取的措施使超急性排斥得到了很大程度的避免,但大大增加了器官移植受体感染病原微生物的机会.猪作为人类理想的器官供体,却有多种内源性病毒,其中猪内源性逆转录病毒（PERV）引起了人类较大的关注.PERV的跨种感染存在正、反两方面的证据,使得异种器官移植的前景喜忧掺半.     

五指山小型猪不同器官内猪内源性反转录病毒的存在与表达

目的:检测五指山小型猪不同器官内猪内源性反转录病毒(PERV)的存在与表达情况。方法:提取心、肝、脾、肺、肾、胸腺等6种器官基因组DNA与总RNA,用PCR、反转录PCR对PERV结构基因gag、pol、env进行定性检测,用实时定量反转录PCR对pol基因进行相对定量检测。结果:6种器官中均能检测到PERV结构基因gag、pol、env的存在与表达;从m RNA水平上看,不同器官内pol基因的相对表达量不存在显著性差异。结论:五指山小型猪不同器官内PERV存在与表达的检测,对进一步阐明五指山小型猪来源的PERV分子生物学特性及深入评价猪-人异种移植病原安全性具有重要意义。     

猪异种器官移植的人源化修饰

利用猪的器官来解决当前人源器官严重短缺,为解决移植器官短缺的可行的途径。用定向基因转移(gene targeting)手段,直接并准确地对α-1,3半乳糖苷转移酶（α-1,3GT）基因进行同源重组,使α-1,3GT失活,再结合猪体细胞克隆技术,对其进行人源化改造,减弱或消除排异反应。除对2-1.3GT进行基因定向修饰外,阻断由异种器官移植而激活的人类补体的串联反应是猪异种器官人源化修饰的另一途径。然而,猪内源性逆转录病毒（porcine endogenous retrovirus,PERV）造成的公共卫生问题,给异种器官移植的前景投下了阴影。因此,即要剔除导致人类排异反应的猪细胞表面的α-1,3GT及其相关的分子, 又要确保猪器官异种移植的安全性, 是尚待研究的重大课题。 Abstract:Xenotransplantation (XP) from pig into human has been considered as means to overcome the great lack of donor organ available in transplantation surgery.In order to weaken rejection between human and pig,approaches of gene targeting have been proposed to eliminate “ rejection gene”α-1,3GT from porcine cells directly and accurately.α-1,3GT knockout pigs can be produced by nuclear transfer cloning with the porcine cells(knocking out α-1,3GT).Besides the genetic modification of α-1,3GT in porcine cells,there is another technical way to interdict activity of complement in series for human by XP.However,porcine endogenous retroviruses (PERV) during XP has been thought to not be negligible in being transmitted with the xenograft to the human recipient.Therefore,it is importance task that we should not only knockout α-1,3GT and relative molecules from pigs,but also ensure safety in public health of XP from PERV.     

中国两头乌猪品种内源性逆转录病毒基因研究

目的对5个中国两头乌猪品种(通城猪、东山猪、沙子岭猪、赣西两头乌猪和金华猪)及3个国外品种(大白猪、长白猪和杜洛克猪)猪内源性逆转录病毒(PERV)的核心蛋白(gag)基因、多聚酶(pol)基因、囊膜(env)基因的3个亚型A、B、C,分别从DNA和RNA水平上进行研究,以发现中国两头乌猪品种在异种器官移植中的资源优势。方法利用PCR方法在DNA水平上对PERV基因的三个亚型进行鉴定,并通过半定量PCR方法在RNA水平上检测通城猪和大白猪PERV各亚型在心、肝、脾、肺、肾、肌肉、脂肪、淋巴和脑组织中的表达谱。结果4个华中两头乌猪种中env-AB型为主要PERV亚型,分别占被测总数的92%～100%。在这4个品种中均没有检测到C亚型,金华猪以及3个国外猪种中均检测到了C亚型,病毒亚型种类也更丰富。半定量PCR实验结果显示gag、pol基因在两个品种9个组织中广泛表达,env-A在通城猪的心、肝、肺、脂肪和淋巴组织中表达量较低,env-B在通城猪的心脏和淋巴组织中表达量较低,而env-B在大白猪的肾脏中表达很低,其他所测8个组织中表达量都较高。结论通城猪、东山猪、赣西两头乌猪和沙子岭猪可以做为较佳的异种移植候选供体,具有良好的应用前景。     

Analysis of natural recombination in porcine endogenous retrovirus envelope genes

Human tropic Porcine Endogenous Retroviruses (PERVs) are the major concern in zoonosis for xenotransplantation because PERVs cannot be eliminated by specific pathogen-free breeding. Recently, a PERV A/C recombinant with PERV-C bearing PERV-A gp70 showed a higher infectivity (approximately 500-fold) to human cells than PERV-A. Additionally, the chance of recombination between PERVs and HERVs is frequently stated as another risk of xenografting. Overcoming zoonotic barriers in xenotransplantation is more complicated by recombination. To achieve successful xenotransplantation, studies on the recombination in PERVs are important. Here, we cloned and sequenced proviral PERV env sequences from pig gDNAs to analyze natural recombination. The envelope is the most important element in retroviruses as a pivotal determinant of host tropisms. As a result, a total of 164 PERV envelope genes were cloned from pigs (four conventional pigs and two miniature pigs). Distribution analysis and recombination analysis of PERVs were performed. Among them, five A/B recombinant clones were identified. Based on our analysis, we determined the minimum natural recombination frequency among PERVs to be 3%. Although a functional recombinant envelope clone was not found, our data evidently show that the recombination event among PERVs may occur naturally in pigs with a rather high possibility.     

Characterization of PERV in a new conserved pig herd as potential donor animals for xenotransplantation in China

Background

Xenotransplantation has drawn increased attention in recent years as a potential solution to the scarcity of human source donor organs. Researchers have highlighted the need to characterize the influence of porcine endogenous retroviruses (PERV) in xenotransplantation. Screening and analyzing the presence and subtype of PERV in donor source animal breeds could provide basic parameters to evaluate the biological safety of xenotransplantation from pigs to humans. We bred a new miniature porcine herd (XENO-1) after decades of investigation, the herd was purpose bred to produce a potential donor animal source for xenotransplantation. To this end we studied the animals’ PERV expression characteristics.

Methods

We randomly selected 37 animals of the herd, PCR and RT-PCR based on specific primers were utilized to determine their PERV viral subtype. High fidelity PCR and restriction enzyme digestion were employed for variants detection. To thoroughly understand the PERV expression pattern, quantitative PCR was applied to measure mRNA expression levels in different tissues, At last, transfection capacity was assessed using a in vitro co-culture system.

Results

Our results revealed that the XENO-1 herd was free of PERV-C and exhibited low levels of PERVs in different tissues compared to commercial pig (landrace). The XENO-1 herd showed unique variants of A/B recombination. In addition, even though there were A/B variants in the XENO-1 herd, co-culturing revealed no evidence of PERV transmission from XENO-1 tissue to human cells.

Conclusion

Overall, Our results displayed an unique PERV expression pattern in a new pig herd and demonstrated its non-transfection capacity in vitro. Data in the research indicate that XENO-1 animals can serve as a better potential donor source for xenotransplantation.

     

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.     

Absence of replication-competent human-tropic porcine endogenous retroviruses in the germ line DNA of inbred miniature Swine

The potential transmission of porcine endogenous retroviruses (PERVs) has raised concern in the development of porcine xenotransplantation products. Our previous studies have resulted in the identification of animals within a research herd of inbred miniature swine that lack the capacity to transmit PERV to human cells in vitro. In contrast, other animals were capable of PERV transmission. The PERVs that were transmitted to human cells are recombinants between PERV-A and PERV-C in the post-VRA region of the envelope (B. A. Oldmixon, J. C. Wood, T. A. Ericsson, C. A. Wilson, M. E. White-Scharf, G. Andersson, J. L. Greenstein, H. J. Schuurman, and C. Patience, J. Virol. 76:3045-3048, 2002); these viruses we term PERV-A/C. This observation prompted us to determine whether these human-tropic replication-competent (HTRC) PERV-A/C recombinants were present in the genomic DNA of these miniature swine. Genomic DNA libraries were generated from one miniature swine that transmitted HTRC PERV as well as from one miniature swine that did not transmit HTRC PERV. HTRC PERV-A/C proviruses were not identified in the germ line DNAs of these pigs by using genomic mapping. Similarly, although PERV-A loci were identified in both libraries that possessed long env open reading frames, the Env proteins encoded by these loci were nonfunctional according to pseudotype assays. In the absence of a germ line source for HTRC PERV, further studies are warranted to assess the mechanisms by which HTRC PERV can be generated. Once identified, it may prove possible to generate animals with further reduced potential to produce HTRC PERV.     

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.     

Identification of exogenous forms of human-tropic porcine endogenous retrovirus in miniature Swine

The replication of porcine endogenous retrovirus subgroup A (PERV-A) and PERV-B in certain human cell lines indicates that PERV may pose an infectious risk in clinical xenotransplantation. We have previously reported that human-tropic PERVs isolated from infected human cells following cocultivation with miniature swine peripheral blood mononuclear cells (PBMC) are recombinants of PERV-A with PERV-C. Here, we report that these recombinants are exogenous viruses in miniature swine; i.e., they are not present in the germ line DNA. These viruses were invariably present in miniature swine that transmitted PERV to human cells and were also identified in some miniature swine that lacked this ability. These data, together with the demonstration of the absence of both replication-competent PERV-A and recombinant PERV-A/C loci in the genome of miniature swine (L. Scobie, S. Taylor, J. C. Wood, K. M. Suling, G. Quinn, C. Patience, H.-J. Schuurman, and D. E. Onions, J. Virol. 78:2502-2509, 2004), indicate that exogenous PERV is the principal source of human-tropic virus in these animals. Interestingly, strong expression of PERV-C in PBMC correlated with an ability of the PBMC to transmit PERV-A/C recombinants in vitro, indicating that PERV-C may be an important factor affecting the production of human-tropic PERV. In light of these observations, the safety of clinical xenotransplantation from miniature swine will be most enhanced by the utilization of source animals that do not transmit PERV to either human or porcine cells. Such animals were identified within the miniature swine herd and may further enhance the safety of clinical xenotransplantation.