Gene Replacement by Zinc Finger Nucleases in Medaka Embryos

Gene replacement (GR) via homologous recombination is a powerful tool for genome editing. Recently, direct GR is achieved successfully by coinjection of mRNAs for engineered endonucleases such as zinc finger nucleases (ZFNs) and donor DNA in developing embryos of diverse organisms. Here, we report the procedures and efficiency for direct GR by using ZFNs in the fish medaka. Upon zygotic coinjection of mRNAs encoding ZFNs that target the gonad-specifically expressed gsdf locus, linear DNA of GR vector pGRgsdf containing the red fluorescent protein (rfp) gene flanked by two homology arms of ~1-kb each underwent GR via homologous recombination. Specifically, 15 of 231 adults from manipulated embryos contained a GR allele in the caudal fin, producing an efficiency of ~7 % for somatic GR. Progeny test revealed that two out of nine fertile fish containing the GR allele in the fin were capable of transmitting the GR allele to ~6 % of F₁ generation at adulthood, generating an efficiency of ~22 % for germline transmission. Sequencing and Southern blotting validated precise GR. We show that the GR allele expressed a chimeric gsdf:rfp RNA between gsdf and cointegrated rfp specifically in the gonad, demonstrating recapitulation of endogenous RNA expression as predicted for the defined GR allele. Most importantly, RFP expression coincides faithfully with the gonad-specific gsdf expression in developing embryos and adults. These results demonstrate, for the first time, the feasibility and efficiency of ZFN-mediated precise GR directly in the developing embryo of medaka as a lower vertebrate model.     

Parameters and Efficiency of Direct Gene Disruption by Zinc Finger Nucleases in Medaka Embryos

Zinc finger nucleases (ZFNs) can generate targeted gene disruption (GD) directly in developing embryos of zebrafish, mouse and human. In the fish medaka, ZFNs have been attempted on a transgene. Here, we developed procedures and parameters for ZFN-mediated direct GD on the gonad-specifically expressed gsdf locus in medaka. A pair of ZFNs was designed to target the first exon of gsdf and their synthetic mRNAs were microinjected into 1-cell stage embryos. We reveal dose-dependent survival rate and GD efficiency. In fry, ZFN mRNA injection at 10 ng/μl led to a GD efficiency of 30 %. This value increased up to nearly 100 % when the dose was enhanced to 40 ng/μl. In a typical series of experiments of ZFN mRNA injection at 10 ng/μl, 420 injected embryos developed into 94 adults, 4 of which had altered gsdf alleles. This leads to a GD efficacy of ～4 % in the adulthood. Sequencing revealed a wide variety of subtle allelic alterations including additions and deletions of 1～18 bp in length in ZFN-injected samples. Most importantly, one of the 4 adults examined was capable of germline transmission to 15.2 % of its F1 progeny. Interestingly, ontogenic analyses of the allelic profile revealed that GD commenced early in development, continued during subsequent stages of development and in primordia for different adult organs of the three germ layers. These results demonstrate the feasibility and—for the first time to our knowledge—the efficacy of ZFN-mediated direct GD on a chromosomal gene in medaka embryos.     

AAV-Mediated Delivery of Zinc Finger Nucleases Targeting Hepatitis B Virus Inhibits Active Replication

Despite an existing effective vaccine, hepatitis B virus (HBV) remains a major public health concern. There are effective suppressive therapies for HBV, but they remain expensive and inaccessible to many, and not all patients respond well. Furthermore, HBV can persist as genomic covalently closed circular DNA (cccDNA) that remains in hepatocytes even during otherwise effective therapy and facilitates rebound in patients after treatment has stopped. Therefore, the need for an effective treatment that targets active and persistent HBV infections remains. As a novel approach to treat HBV, we have targeted the HBV genome for disruption to prevent viral reactivation and replication. We generated 3 zinc finger nucleases (ZFNs) that target sequences within the HBV polymerase, core and X genes. Upon the formation of ZFN-induced DNA double strand breaks (DSB), imprecise repair by non-homologous end joining leads to mutations that inactivate HBV genes. We delivered HBV-specific ZFNs using self-complementary adeno-associated virus (scAAV) vectors and tested their anti-HBV activity in HepAD38 cells. HBV-ZFNs efficiently disrupted HBV target sites by inducing site-specific mutations. Cytotoxicity was seen with one of the ZFNs. scAAV-mediated delivery of a ZFN targeting HBV polymerase resulted in complete inhibition of HBV DNA replication and production of infectious HBV virions in HepAD38 cells. This effect was sustained for at least 2 weeks following only a single treatment. Furthermore, high specificity was observed for all ZFNs, as negligible off-target cleavage was seen via high-throughput sequencing of 7 closely matched potential off-target sites. These results show that HBV-targeted ZFNs can efficiently inhibit active HBV replication and suppress the cellular template for HBV persistence, making them promising candidates for eradication therapy.     

Evolution of the X-linked Zinc Finger Gene and the Y-linked Zinc Finger Gene in Primates

We have sequenced the partial exon of the zinc finger genes (ZFX and ZFY) in 5 hominoids, 2 Old World monkeys, 1 New World monkey, and 1 prosimian. Among these primate species, the percentage similarities of the nucleotide sequence of the ZFX gene were 96-100% and 91.2-99.7% for the ZFY gene. Of 397 sites in the ZFX and ZFY gene sequences, 20 for ZFX gene and 42 for ZFY gene were found to be variable. Substitution causes 1 amino acid change in ZFX, and 5 in ZFY, among 132 amino acids. The numbers of synonymous substitutions per site (Ks) between human and the chimpanzee, gorilla and orangutan for ZFY gene were 0.026, 0.033, and 0.085, respectively. In contrast, the Ks value between human and hominoid primates for the ZFX gene was 0.008 for each comparison. Comparison of the ZFX and ZFY genes revealed that the synonymous substitution levels were higher in hominoids than in other primates. The rates of synonymous substitution per site per year were higher in the ZFY exon than in the SRY exon, and higher in the ZFY exon than in the ZFY intron, in hominoid primates.     

小鼠BTB/锌指结构新基因Bsg6的克隆及表达谱分析

Bsg6 (brain specific gene 6) 是用消减差异筛选的方法克隆的小鼠头部特异表达 新基因. Bsg6基因cDNA长3 871 bp,编码一个670个氨基酸残基的蛋白,GenBank 登录号AY635051,位于小鼠第4号染色体,由2个外显子构成. Bsg6蛋白含有一个N端BTB（Broad complex, Tramtrack, and Bric a brac）结构域和两个C端C２Ｈ２型锌指结构域. 小鼠Bsg6蛋白与其在人类和鸡中同源蛋白的同源性分别为86.2%和79.1%. Bsg6在小鼠胚胎中的表达具有一定动态性,在E8.5的小鼠胚胎中,Bsg6主要在前脑和神经管表达. 在E9.5的小鼠胚胎中,Bsg6的表达明显增强并主要集中在前脑的端脑部. Bsg6在E10.5小鼠胚胎端脑的表达出现了下降,但是在中脑和后脑的表达增加,此外,Bsg6 mRNA的表达还出现在肢芽和尾部. 在HH10期的鸡胚中,Bsg6主要在头部和神经管前端表达. Northern杂交结果显示,Bsg6在很多小鼠成体组织中没有表达,但是在破骨细胞瘤中高表达. Bsg6的表达谱提示,Bsg6可能是在器官形成期对脑的发育起到重要作用的转录因子,而且其表达受到严格的调控,此外Bsg6还能与肿瘤的发生有关.     

锌指核酸酶在基因组定向修饰中的应用

同源重组和逆转录病毒介导转基因法是目前基因组修饰中常用的两种主要方法.由于这些传统方法效率低,特异性差等缺点,制约了其在研究中的应用.锌指核酸酶(zinc finger nuclease,ZFN）是一种人工合成酶,含有锌指蛋白DNA结合域和非特异性核酸酶FokI结构域. ZFN在对基因组的靶向修饰时,表现出高度特异性和高效性. 最新研究结果显示,锌指核酸酶在哺乳动物细胞和斑马鱼基因组靶向敲除的效率高达20%.这一技术的出现,将给基因组靶向修饰的研究和应用领域带来革命,特别是在基因治疗人类疾病方面有巨大的潜力和广阔的前景.     

Dual Fluorescent Reporter Pig for Cre Recombination: Transgene Placement at the ROSA26 Locus

We are extending the Cre/loxP site-specific recombination system to pigs, focussing on conditional and tissue-specific expression of oncogenic mutations to model human cancers. Identifying the location, pattern and extent of Cre recombination in vivo is an important aspect of this technology. Here we report pigs with a dual fluorochrome cassette under the control of the strong CAG promoter that switches expression after Cre-recombination, from membrane-targeted tandem dimer Tomato to membrane-targeted green fluorescent protein. The reporter cassette was placed at the porcine ROSA26 locus by conventional gene targeting using primary mesenchymal stem cells, and animals generated by nuclear transfer. Gene targeting efficiency was high, and analysis of foetal organs and primary cells indicated that the reporter is highly expressed and functional. Cre reporter pigs will provide a multipurpose indicator of Cre recombinase activity, an important new tool for the rapidly expanding field of porcine genetic modification.     

Directed Evolution of an Enhanced and Highly Efficient FokI Cleavage Domain for Zinc Finger Nucleases

Zinc finger nucleases (ZFNs) are powerful tools for gene therapy and genetic engineering. The high specificity and affinity of these chimeric enzymes are based on custom-designed zinc finger proteins (ZFPs). To improve the performance of existing ZFN technology, we developed an in vivo evolution-based approach to improve the efficacy of the FokI cleavage domain (FCD). After multiple rounds of cycling mutagenesis and DNA shuffling, a more efficient nuclease variant (Sharkey) was generated. In vivo analyses indicated that Sharkey is > 15-fold more active than wild-type FCD on a diverse panel of cleavage sites. Further, a mammalian cell-based assay showed a three to sixfold improvement in targeted mutagenesis for ZFNs containing derivatives of the Sharkey cleavage domain. We also identified mutations that impart sequence specificity to the FCD that might be utilized in future studies to further refine ZFNs through cooperative specificity. In addition, Sharkey was observed to enhance the cleavage profiles of previously published and newly selected heterodimer ZFN architectures. This enhanced and highly efficient cleavage domain will aid in a variety of ZFN applications in medicine and biology.     

小鼠锌指蛋白基因ZF-12的克隆与基因结构以及5′端启动子活性的分析

人类锌指蛋白ZNF191为类krueppel转录因子,其可能与神经精神病、心血管疾病和肝癌等疾病的发生或发展有关,为了采用基因敲除模型来探讨它的生理功能,克隆和定位其在模式生物（小鼠）中的同源基因,并阐明其结构特征是必需的。通过筛选小鼠λ噬菌体基因组文库,获得了它在小鼠中的同源基因ZF－12基因组全长片段。序列分析表明：该基因含有4个外显子和3个内含子,内含子都遵循GT／AG的剪接模式;第91密码子处存在单核苷酸多态性;可能存在2种大小不同的3′端的非翻译区（3′－UTR）;与锌指蛋白基因Zfp-35相连锁,可将其定位于18号染色体的B3－C带上或附近;5′端上游存在1个约250bp高度富含GC的启动子序列。ZF－12基因的5′端系列缺失荧光素酶基因报告载体的瞬时转染实验表明:其上游序列（-762～ 70bp）具有启动子转录活性,在更上游的序列（－824～-762bp)上可能存在负调控元件。这项研究结果为进一步的基因敲除研究奠定了基础。     

Disruption of the Myostatin Gene in Porcine Primary Fibroblasts and Embryos Using Zinc-Finger Nucleases

Myostatin represses muscle growth by negatively regulating the number and size of muscle fibers. Myostatin loss-of-function can result in the double-muscling phenotype and increased muscle mass. Thus, knockout of myostatin gene could improve the quality of meat from mammals. In the present study, zinc finger nucleases, a useful tool for generating gene knockout animals, were designed to target exon 1 of the myostatin gene. The designed ZFNs were introduced into porcine primary fibroblasts and early implantation embryos via electroporation and microinjection, respectively. Mutations around the ZFNs target site were detected in both primary fibroblasts and blastocysts. The proportion of mutant fibroblast cells and blastocyst was 4.81% and 5.31%, respectively. Thus, ZFNs can be used to knockout myostatin in porcine primary fibroblasts and early implantation embryos.     

A Comparison of Exogenous Promoter Activity at the ROSA26 Locus Using a PhiC31 Integrase Mediated Cassette Exchange Approach in Mouse ES Cells

The activities of nine ubiquitous promoters (ROSA26, CAG, CMV, CMVd1, UbC, EF1α, PGK, chicken β-actin and MC1) have been quantified and compared in mouse embryonic stem cells. To avoid the high variation in transgene expression which results from uncontrolled copy number and chromosomal position effects when using random insertion based transgenic approaches, we have adopted a PhiC31 integrase mediated cassette exchange method for the efficient insertion of transgenes at single copy within a defined and well characterized chromosomal position, ROSA26. This has enabled the direct comparison of constructs from within the same genomic context and allows a systematic and quantitative assessment of the strengths of the promoters in comparison with the endogenous ROSA26 promoter. The behavior of these exogenous promoters, when integrated at ROSA26 in both sense and antisense orientations, reveals a large variation in their levels of activity. In addition, a subset of promoters, EF1α, UbC and CAG, show an increased activity in the sense orientation as a consequence of integration. Transient transfection experiments confirmed these observations to reflect integration dependent effects and also revealed significant differences in the behaviour of these promoters when delivered transiently or stably. As well as providing an important reference which will facilitate the choice of an appropriate promoter to achieve the desired level of expression for a specific research question, this study also demonstrates the suitability of the cassette exchange methodology for the robust and reliable expression of multiple variant transgenes in ES cells.     

Efficient Generation of Myostatin (MSTN) Biallelic Mutations in Cattle Using Zinc Finger Nucleases

Genetically engineered zinc-finger nucleases (ZFNs) are useful for marker-free gene targeting using a one-step approach. We used ZFNs to efficiently disrupt bovine myostatin (MSTN), which was identified previously as the gene responsible for double muscling in cattle. The mutation efficiency of bovine somatic cells was approximately 20%, and the biallelic mutation efficiency was 8.3%. To evaluate the function of the mutated MSTN locus before somatic cell nuclear transfer, MSTN mRNA and protein expression was examined in four mutant cell colonies. We generated marker-gene-free cloned cattle, in which the MSTN biallelic mutations consisted of a 6-bp deletion in one of the alleles and a 117-bp deletion and 9-bp insertion in the other allele, resulting in at least four distinct mRNA splice variants. In the MSTN mutant cattle, the total amount of MSTN protein with the C-terminal domain was reduced by approximately 50%, and hypertrophied muscle fibers of the quadriceps and the double-muscled phenotype appeared at one month of age. Our proof-of-concept study is the first to produce MSTN mutations in cattle, and may allow the development of genetically modified strains of double-muscled cattle.     

小鼠Dppa2基因shRNA载体的构建及干扰效果的检测

目的:构建有效的针对小鼠Dppa2基因的shRNA(short hairpin RNA)干扰载体。方法:设计合成2对针对小鼠Dppa2基因的shRNA序列以及1对与哺乳动物基因组无同源性的shRNA序列作为对照,构建pSUPER.Retro.puro干扰载体并进行PCR,酶切和测序验证。进一步将各干扰载体分别转染小鼠胚胎干细胞(embryonic stem cells,ESCs),RT-PCR检测干扰效率。结果:PCR,酶切和测序验证均表明各shRNA载体构建成功。将空载体及各重组载体分别转染小鼠ESCs发现,干扰组Dppa2基因表达水平相对于空载体对照组和阴性shRNA载体对照组明显下调。结论:成功构建了有效的针对小鼠Dppa2基因的shRNA干扰载体,为进一步研究Dppa2基因在维持小鼠ESCs不分化过程中的作用提供了基础。     

小鼠睾丸和卵巢特异表达基因Zfp474的克隆与特征分析

运用NCBI中的数据库消减杂交(Digital Differential Display,DDD)分析方法,从小鼠睾丸组织中分离了一个含有C2HC／C3H结构的新型锌指蛋白基因——ZIM74(GenBank登录号：AY350709)。通过推导和进一步的RT-PCR实验证实：该基因含4个外显子,gDNA在染色体上跨度29869bp,定位于小鼠染色体18D1。cDNA编码一个含347个氨基酸的新蛋白,带有C2HC／C3H结构域。Northern杂交结果显示：该基因含有2．37kb大小的唯一转录本,主要在睾丸中强表达,卵巢中有表达,而在其他组织中该基因无表达。结果提示：Zfp474基因对精于发生和卵母细胞的发育可能起重要作用。     

A Novel Genetic System Based on Zinc Finger Nucleases for the Identification of Interactions between Proteins In Vivo

Yeast two-hybrid (Y2H) methods are powerful tools for detecting protein–protein interactions. The traditional Y2H method has been widely applied to screen novel protein interactions since it was established two decades ago. The high false-positive rate of the traditional method drove the development of modified Y2H systems. Here, we describe a novel Y2H system using zinc-finger nucleases (ZFNs). ZFNs contain two functional domains, a zinc-finger DNA-binding domain (ZFP) and a non-specific nuclease domain (FokI). In this system, the bait is expressed as a fusion protein with a specific ZFP, and the prey is fused to the FokI. A reporter vector is designed such that the ZFN target site disrupts the Gal4 open reading frame. By transforming the three plasmids into a yeast strain (AH109), the interaction between the bait and prey proteins reconstitutes ZFN function and generates the double-strand break (DSB) on its target site. The DNA DSB repair restores Gal4 function, which activates the expression of the four reporter genes. We used p53-SV40LT interacting proteins to prove the concept. In addition, 80% positive rate was observed in a cDNA screening test against WDSV orfA protein. Our results strongly suggested that this Y2H system could increase screening reliability and reproducibility, and provide a novel approach for interactomics research.     

哺乳动物锌指蛋白家族中KRAB功能域的进化

KRAB锌指基因是哺乳动物中最大的转录调控因子家族,它的多数成员在基因组上成簇分布,具有五种不同的亚家族,在功能行使上承担着不同的作用。本文通过对人类、黑猩猩、小鼠、大鼠和狗五种哺乳动物全蛋白质组序列及mRNA组织表达谱分析,验证了C2H2锌指结构在单个KRAB蛋白质中出现的数目多于一般锌指蛋白质;KRAB功能域在各物种中分布显著不同且与分化时间不成正比,这表明KRAB相关功能域多样性在灵长类进化过程中潜在的适应性进化。同时,提出KRAB亚家族进化的路线：即KRAB—Aa为起始家族,Ba由Aa直接演变形成,而Ca,blonga和XRCC-Z种亚型可能经过Ba或直接从Aa演变形成;此外,锌指结构在单个蛋白质中出现个数伴随KRAB功能域自身的进化路线逐渐递增,反映了KRAB功能域在形成新转录调控因子方面的积极作用。     

端粒酶催化亚基基因在小鼠 胚胎发育早期的转录活性

用 RT-PCR 引物分别扩增成年昆明 (KM) 小鼠睾丸、脾脏、肾脏、肝脏和胸腺组织的总 RNA 发现,端粒酶催化亚基基因 tert 在这些组织中都有转录,目标产物正确组装到 PMD 18-T 载体后测序,结果与已知 cDNA 序列一致 . PMSG/hCG 超数排卵方法获得 KM 小鼠成熟卵母细胞和 CZB 溶液体外培养的胚胎 (KM ♀× KM ♂ ) ,用酸性 Tyrode's 溶液消化透明带后,采用巢式 RT-PCR ,同时分析 tert 基因和持家基因 hprt 的转录发现,对于单个样品来说 , 全部卵母细胞 (15 h-post hCG , 10/10) 都存在 hprt 转录本,其中,只有 40% (4/10) 还同时存在 tert 转录本 . 原核形成初期 (20 h-post hCG , 6/6) 和原核晚期 (30 h post-hCG , 8/8) 的受精卵,以及发育至 2-C 早期的胚胎 (35 h-post hCG , 7/7) 都不转录 tert 基因,只有 hprt mRNA 存在; 2-C 晚期 (50 h-post hCG) 时,两个基因同时转录 (4/8) 和一个基因单独转录 (4/8) 的胚胎各占 50% ;从 4-C 阶段 (65 h-post hCG , 4/4) 开始,包括 8-C 阶段 (75 h-post hCG , 4/4) ,桑椹胚阶段 (93 h-post hCG , 4/4) ,直至囊胚阶段 (118 h-post hCG , 4/4) ,所有的胚胎都同时转录 tert 和 hprt 基因,而且转录水平明显升高 . 以 20 枚胚胎量为模板进行 RT-PCR 发现,原核早期,原核晚期的胚胎中仍然没有 tert 基因转录,只有 hprt mRNA ,但是,在 2-C 早期胚胎中同时检测到了 hprt 和 tert 两种 mRNA. 结果表明,持家基因 hprt 在成熟卵母细胞受精前后,以及胚胎早期发育过程中均存在转录本 . 40% 卵母细胞中存在的 tert mRNA 在受精后很快降解,检测不到;胚胎基因组在 2-C 早期开始转录 tert mRNA ,转录水平逐渐上升 . 结果暗示,小鼠胚胎的基因组 DNA 在 2-C 早期开始启动,功能基因 tert 也在此时开始转录,可能与胚胎发育初期的染色体保护有关 .