Derivation and comparison of C57BL/6 embryonic stem cells to a widely used 129 embryonic stem cell line

Typically, embryonic stem (ES) cells derived from 129 mouse substrains are used to generate genetically altered mouse models. Resulting chimeric mice were then usually converted to a C57BL/6 background, which takes at least a year, even in the case of speed congenics. In recent years, embryonic stem cells have been derived from various mouse strains. However, 129 ES cells are still widely used partially due to poor germline transmission of ES cells derived from other strains. Availability of highly germline-competent C57BL/6 ES cells would enormously facilitate generation of genetically altered mice in a pure C57BL/6 genetic background by eliminating backcrossing time, and thus significantly reducing associated costs and efforts. Here, we describe establishment of a C57BL/6 ES cell line (LK1) and compare its efficacy to a widely used 129SvJ ES cell line (GSI-1) in generating germline chimeras. In contrast to earlier studies, our data shows that highly germline-competent C57BL/6 ES cell lines can be derived using a simple approach, and thus support broader use of C57BL/6 ES cell lines for genetically engineered mouse models. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Establishment and chimera analysis of 129/SvEv- and C57BL/6-derived mouse embryonic stem cell lines

Hundreds of new mutant mouse lines are being produced annually using gene targeting and gene trap approaches in embryonic stem (ES) cells, and the number is expected to continue to grow as the human and mouse genome projects progress. The availability of robust ES cell lines and a simple technology for making chimeras is more attractive now than ever before. We established several new ES cell lines from 129/SvEv and C57BL/6 mice and tested their ability to contribute to the germline following blastocyst injections and/or the less expensive and easier method of morula-ES cell aggregation. Using morula aggregation to produce chimeras, five newly derived 129/SvEv and two C57BL/6 ES cell lines tested at early passages were found to contribute extensively to chimeras and produce germline-transmitting male chimeras. Furthermore, the two 129S/vEv ES cell lines that were tested and one of the C57BL/6 ES cell lines were able to maintain these characteristics after many passages in vitro. Our results indicate that the ability of ES cells to contribute strongly to chimeras following aggregation with outbred embryos is a general property of early passage ES cells and can be maintained for many passages. C56BL/6-derived ES cell lines, however, have a greater tendency than 129-derived ES cell lines to lose their ability to colonize the germline.     

品系对小鼠胚胎干细胞分离效率的影响

为了充分利用小鼠胚胎干(ES)细胞,就必须从众多小鼠品系中分离ES细胞系。本研究通过传统的成纤维细胞饲养层法,从CD-1、129/Sv、C57BL/6J和129/Sv×C57BL/6J四种不同遗传背景的小鼠中分离得到12个ES细胞系,而从KM小鼠没有得到ES细胞系。所有的ES细胞系都具有典型的ES细胞特征,AKP染色呈阳性。从四种不同遗传背景的ES细胞系得到了包含多种组织的畸胎瘤;与桑椹胚聚合后,都得到了生殖系嵌合体。结果表明:品系对小鼠ES细胞的分离有显著影响,利用129小鼠以及包含129小鼠遗传背景的杂交小鼠都较容易分离ES细胞,由ES细胞得到生殖系嵌合体的效率在不同品系间有显著差异,从杂交ES细胞比近交ES细胞中更容易得到生殖系嵌合体。     

Combining sperm plug genotyping and coat color chimerism predicts germline transmission

There has been a significant increase in the use of C57BL/6N-derived ES cells for the production of gene knockout mice. However, the potential for germline transmission (GLT) from chimeras on this genetic background has been observed to be highly variable. Using coat color as an indicator of somatic chimerism to infer the extent of chimeric contribution to the germ cell population, even highly agouti C57BL/6N-derived chimeras can fail to achieve GLT. We investigated the extent to which quantitative PCR genotyping for a marker gene expressed in gene targeted ES cells can be performed on DNA extracted from sperm present in copulatory plugs to determine the contribution of ES cells to the germ cells. We found that an objective assessment of sperm DNA from copulatory plugs combined with a subjective assessment of coat color chimerism can be used to accurately inform the selection of chimeras for breeding that are likely to achieve GLT. These results indicate that, compared to random selection of chimeras, including an analysis of copulatory plugs to set chimeras for breeding can help to reduce costs, minimize time, and facilitate research for projects requiring the production, selection, breeding, and testing of chimeras to generate gene-targeted mice.     

Utility of a C57BL/6 ES line versus 129 ES lines for Targeted Mutations in Mice

Inbred ES lines, though useful for generating targeted mutations in mice, are used infrequently. To appreciate the relative efficiency of inbred ES lines, a C57BL/6 ES line was compared with 129 strain ES lines for effectiveness in chimera formation leading to the establishment of targeted mutations in mice. Data from a transgenic facility spanning 7 years were collected. C57BL/6 ES cells injected into Balb/c embryos results in lower coat color chimerism than do 129 ES cells injected into C57BL/6 embryos. Combined data indicate that five independent targeted C57BL/6 clones should be injected as compared to three independent 129 clones to generate enough chimeras to effectively test for germ-line transmission. Thus, although less efficient than 129 ES lines, the C57BL/6 ES line is a relatively competent line and useful for the routine generation of targeted mutations in mice on a defined genetic background.     

Improved generation of C57BL/6J mouse embryonic stem cells in a defined serum-free media

C57BL/6 is a well-characterized mouse strain that is used extensively for immunological and neurological research. The establishment of C57BL/6 ES cell lines has facilitated the study of gene-altered mice in a pure genetic background-however, relatively few such lines exist. Using a defined media supplement, knockout serum replacement (KSR) with knockout DMEM (KSR-KDMEM), we find that we can readily establish ES cell lines from blastocysts of C57BL/6J mice. Six lines were established, all of which were karyotypically normal and could be maintained in the undifferentiated state on mouse embryonic fibroblast (MEF) feeders. One line was further tested and found to be karyotypically stable and germline competent, both prior to manipulation and after gene targeting. For this cell line, efficiencies of cell cloning and chimera generation were greater when maintained in KSR-KDMEM. Our work suggests that the use of defined serum-free media may facilitate the generation of ES cells from inbred mouse strains.     

Embryonic stem cells derived from C57BL/6J and C57BL/6N mice

Mouse embryonic stem (ES) cells with the C57BL/6 genetic background allow the generation of knockout mice without the need to backcross to C57BL/6. However, C57BL/6 ES cells whose pluripotency after homologous recombination has been confirmed are not yet available from public cell banks. To facilitate the use of ES cells derived from C57BL/6 sublines in both biologic and medical research, we demonstrated that the use of knockout serum replacement as a medium supplement and 8-cell blastomeres as recipient embryos allowed establishment of ES cells and production of germline chimeric mice, respectively. Under effective conditions, a large number of ES cell lines were established from C57BL/6J and C57BL/6N blastocysts. The majority of ES cells in many cell lines obtained from both strains showed a normal chromosome number. Germline chimeric mice were generated from C57BL/6J and C57BL/6N ES cells. Finally, the ES cell line B6J-S1UTR, derived from C57BL/6J, was used for successful production of gene knockout mice. C57BL/6J ES (B6J-S1UTR and B6J-23UTR) and C57BL/6N ES (B6N-22UTR) cells are available from the cell bank of the BioResource Center at RIKEN Tsukuba Institute (http://www.brc.riken.jp/lab/cell/english/).     

Current status of chromosomal abnormalities in mouse embryonic stem cell lines used in Japan

We performed chromosomal analysis on 540 mouse embryonic stem (ES) cell lines obtained during 2001 to 2004 from 20 institutions in Japan. Overall, 66.5% of the ES cell lines showed normal chromosomal numbers, but 15.9%, 9.1%, and 2.8% showed modal chromosomal numbers of 41, 42, and 39, respectively. When we karyotyped 88 ES cell lines selected arbitrarily from the 540 lines, 53 (60.2%) showed normal diploid karyotypes; the sex chromosome constitution of 52 lines was XY, with the remaining 1 being XX. Among 35 ES cell lines showing abnormal karyotypes, trisomy of chromosome 8 (41, XY, +8) was dominant (51.4%), 14.3% had trisomy 8 with loss of one sex chromosome (40, XO, +8), and 11.4% had trisomy 8 together with trisomy 11 (42, XY, +8, +11). Karyotypic abnormalities including trisomy 8 and trisomy 11 occurred in 88.6% and 17.1% of ES cell lines, respectively. The XO sex chromosome constitution was observed in 25.7% of all abnormal ES cell lines. Of the 88 selected ES cell lines, 60 lines were established from strain 129 animals, 17 from F1 progeny of C57BL/6J x CBA (called TT2 in this study), and 11 from C57BL/6J mice. Normal diploid karyotypes were observed in 58.3% of lines derived from 129, 58.8% of those from TT2, and 72.7% of C57BL/6J. The relatively high incidence of abnormalities in chromosomal number and karyotype in ES cell lines used in Japan suggests the importance of chromosomal analysis of ES cells for successful establishment of new animal models through germline transmission.     

Effect of genetic background on establishment of mouse embryonic stem cells.

We established 13 embryonic stem (ES) cell lines from 542 embryos crossed between various strains of mice: 10 lines from 129/Sv-ter embryos (10/48, 20.8%) and 3 lines out of other 9 combinations of intra- or inter-strain matings (1 from intracross of C57BL/6CrSlc, 1 from B6D2F1 x C57BL/6CrSlc, 1 from Yok:ddY x Slc:ICR). No ES cell line from 129/Sv-ter x Slc:ICR embryos suggests that ICR strain might have inhibitory genetic factor(s) for the ES cell formation. Some ES cell lines could be obtained from hybrids even if none or few lines from their parental strains, suggesting a heterosis effect can be expected for establishing ES cell lines in mice.     

Genetic variation in C57BL/6 ES cell lines and genetic instability in the Bruce4 C57BL/6 ES cell line

Genetically modified mouse strains derived from embryonic stem (ES) cells are powerful tools for gene function analysis. ES cells from the C57BL/6 mouse strain are not widely used to generate mouse models despite the advantage of a defined genetic background. We assessed genetic variation in six such ES cell lines with 275 SSLP markers. Compared to C57BL/6, Bruce4 differed at 34 SSLP markers and had significant heterozygosity on three chromosomes. BL/6#3 and Dale1 ES cell lines differed at only 3 SSLP makers. The C2 and WB6d ES cell lines differed at 6 SSLP markers. It is important to compare the efficiency of producing mouse models with available C57BL/6 ES cells relative to standard 129 mouse strain ES cells. We assessed genetic stability (the tendency of cells to become aneuploid) in 110 gene-targeted ES cell clones from the most widely used C57BL/6 ES cell line, Bruce4, and 710 targeted 129 ES cell clones. Bruce4 clones were more likely to be aneuploid and unsuitable for ES cell-mouse chimera production. Despite their tendency to aneuploidy and consequent inefficiency, use of Bruce4 ES cells can be valuable for models requiring behavioral studies and other mouse models that benefit from a defined C57BL/6 background. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Establishment of a germ-line competent C57BL/6 embryonic stem cell line

Embryonic stem (ES) cell lines have been derived from blastocysts of the inbred mouse strain C57BL/6. The highest frequencies of ES cell colonies were observed when blastocysts were explanted directly onto growth-arrested feeder layers of 5637 human bladder carcinoma cells in the presence of conditioned medium. One of the male ES cell lines tested (BL/6-III) was shown to be karyotypically stable and germ-line competent when introduced into BALB/c host blastocysts. These results demonstrate that ES cell lines from inbred mouse strains other than 129/Sv may be used as vectors to introduce selected mutations into the germ-line of mice.     

Use of coisogenic host blastocysts for efficient establishment of germline chimeras with C57BL/6J ES cell lines.

Gene targeting in embryonic stem (ES) cells allows the production of mice with specified genetic mutations. Currently, germline-competent ES cell lines are available from only a limited number of mouse strains, and inappropriate ES cell/host blastocyst combinations often restrict the efficient production of gene-targeted mice. Here, we describe the derivation of C57BL/6J (B6) ES lines and compare the effectiveness of two host blastocyst donors, FVB/NJ (FVB) and the coisogenic strain C57BL/6-Tyr(c)-2J (c2J), for the production of germline chimeras. We found that when B6 ES cells were injected into c2J host blastocysts, a high rate of coat-color chimerism was detected, and germline transmission could be obtained with few blastocyst injections. In all but one case, highly chimeric mice transmitted to 100% of their offspring. The injection of B6 ES cells into FVB blastocysts produced some chimeric mice. However; the proportion of coat-color chimerism was low, with many more blastocyst injections required to generate chimeras capable of germline transmission. Our data support the use of the coisogenic albino host strain, c2J, for the generation of germline-competent chimeric mice when using B6 ES cells.     

Establishment of germline-competent embryonic stem cell lines from the MSM/Ms strain

MSM/Ms is an inbred mouse strain established from the Japanese wild mouse, Mus musculus molossinus, which has been phylogenetically distinct from common laboratory mouse strains for about 1 million years. The nucleotide substitution rate between MSM/Ms and C57BL/6 is estimated to be 0.96%. MSM/Ms mice display unique characteristics not observed in the commonly used laboratory strains, including an extremely low incidence of tumor development, high locomotor activity, and resistance to high-fat-diet-induced diabetes. Thus, functional genomic analyses using MSM/Ms should provide a powerful tool for the identification of novel phenotypes and gene functions. We report here the derivation of germline-competent embryonic stem (ES) cell lines from MSM/Ms blastocysts, allowing genetic manipulation of the M. m. molossinus genome. Fifteen blastocysts were cultured in ES cell medium and three ES lines, Mol/MSM-1, -2, and -3, were established. They were tested for germline competency by aggregation with ICR morulae and germline chimeras were obtained from all three lines. We also injected Mol/MSM-1 ES cells into blastocysts of ICR or C57BL/6 × BDF1 mice and found that blastocyst injection resulted in a higher production rate of chimeric mice than did aggregation. Furthermore, Mol/MSM-1 subclones electroporated with a gene trap vector were also highly efficient at producing germline chimeras using C57BL/6 × BDF1 blastocyst injection. This Mol/MSM-1 ES line should provide an excellent new tool allowing the genetic manipulation of the MSM/Ms genome.     

两个可进入种系的ES细胞系的建立

从１２９／ｔｅｒ小鼠中建立了９个ＥＳ细胞系,它们在核型、生长速度、体内外分化能力等方面显示了各自不同的特点。通过囊胚显微注射法,将ＥＳ细胞注入Ｃ５７ＢＬ／６Ｊ胚胎中,制作了嵌合体,并通过对嵌合体后代毛色的观察,判断了嵌合体生殖细胞的组成。结果表明,ＥＳ细胞系ＭＥＳＰＵ２１、ＭＥＳＰＵ２２都具有很强的种系嵌合能力。比较这两个细胞系与其他细胞系,证明一个好的ＥＳ细胞系必须具备核型正常、生长速度快、体外     

Studies on Two Factors Affecting the Production of Germline Chimeras by Using HM 1 Cells

ＥＳ细胞系统与基因定位致变相结合,进行基因敲除（ｋｎｏｃｋｏｕｔ）已成为研究基因在生物体内功能的重要手段。在ＥＳ细胞系的建立、外源基因导入ＥＳ细胞、种系嵌合鼠的获得等三个重要环节中,种系嵌合鼠的获得是最关键的一环。由于ＥＳ细胞系统技术复杂、实验条件要求很高,尽管国际上已报导了上百例的基因敲除（ｋｎｏｃｋｏｕｔ）实验,但是到目前为止,我国还无一例在国内条件下获得种系嵌合鼠的正式报道。本研究对影响种系嵌合鼠获得的两种因素（饲养层细胞、受体胚胎种类）进行了比较研究,成功地获得了种系嵌合鼠。将ＨＭ１细胞在ＳＴＯ或ＭＥＦ培养层上培养至２１３３代,注射到不同小鼠的囊胚里,经过恢复培养,移植到假孕的昆明白雌鼠子宫内。由于ＨＭ１细胞来源于粟色的的１２９品系,而胚胎供体鼠的毛色为黑或白色,仔鼠出生一周后即可辨别是否为毛色嵌合鼠。用成年嵌合鼠与其受体胚胎相同品系的小鼠交配,进行种系嵌合鼠鉴定。曾有报导：ＳＴＯ培养层会导致ＥＳ细胞发生核变。我们改用ＭＥＦ培养层,获得嵌合鼠的比率高达４８．６％（Ｔａｂｌｅ１）。不同小鼠胚胎之间存在差异,Ｃ５７ＢＬ／６Ｊ、ＩＣＲ和昆明白三者提供的受体胚胎产生嵌合鼠的比率分别为７１．４％、５５％     

To knockout in 129 or in C57BL/6: that is the question

Traditionally, knockout experiments are performed in ES cells derived from the 129 mouse strain, followed by backcrossing with the more robust C57BL/6 strain. C57BL/6-derived ES cells have only occasionally been used in this process. We compared C57BL/6- with 129-derived ES cells directly and reviewed the literature. We found that, although some steps are less efficient, the advantages of C57BL/6 mice more than compensate for these drawbacks.     

Utility of C57BL/6J × 129/SvJae embryonic stem cells for generating chromosomal deletions: tolerance to γ radiation and microsatellite polymorphism

We have previously reported a method for making nested deletion complexes in mice by irradiation of ES cells. The key to this technology is that F₁ hybrid ES cells (called v17.2) of the genotype (BALB/cTa × 129/Sv^Jae) retain germline colonizing ability after exposure to levels of ionizing radiation that induce chromosomal deletions. In an effort to identify other genotypes of ES cells that are suitable for this technology, the radiation sensitivity of the cell line v6.4, which is of the genotype (C57BL/6J × 129/Sv^Jae), was investigated. After treatment with a range of radiation exposures, the developmental potential of these cells was assayed by injecting them into blastocysts to generate chimeric mice. These experiments showed that while cell lethality increased as the level of radiation increased, the surviving ES cells retained full totipotency at all exposure levels, up to 400 Rads. Because polymorphism between parental microsatellite alleles in the F₁ hybrid ES cells is important for ascertaining the sizes of induced deletions, the 129/SvJ and 129/Sv^Jae allele sizes of 48 microsatellite loci on chromosome (Chr) 17 were determined. This revealed a higher level of polymorphism between 129 and C57BL/6J on Chr 17. The radiation tolerance, high polymorphism between parental strains, and presence of the widely used C57BL/6J strain component make v6.4 ES cells an attractive cell line for generating radiation-induced chromosomal deletions. Received: 11 August 1997 / Accepted: 13 November 1997     

Three inhibitors of FGF receptor,ERK, and GSK3 establishes germline‐competent embryonic stem cells of C57BL/6N mouse strain with high efficiency and stability

C57BL/6 mouse is the most standard strain in mouse genetics. The strain does, however, have several disadvantages; one being the difficulty in establishing embryonic stem (ES) cells. No reliable C57BL/6 ES cell line is widely available for creating mutant mice through gene targeting. It also greatly favors mouse genetics if one can routinely make multiple mutations by stably culturing germline‐competent C57BL/6 ES cells or if one can routinely establish ES cells from C57BL/6‐derived mutant mice to make multiple mutations. Recently, an ES culture method with three inhibitors (3i: SU5402 for FGFR, PD184352 for ERK, and CHIR99021 for GSK3) has been reported. Here we show that this 3i method is extremely instrumental in establishing and culturing germline‐competent ES cells in the C57BL/6N strain. genesis 48:317–327, 2010. © 2010 Wiley‐Liss, Inc.     

高效建立129/ter、C57BL/6J小鼠胚胎干细胞系的方法学探讨

小鼠胚胎干细胞 (ＥＳ细胞 )是从小鼠囊胚内细胞团(ＩＣＭ)分离出来的、在体外培养过程中可维持未分化状态、正常二倍体核型及无限增殖能力 ,具有多能性或全能性的细胞系[1～ 3 ] 。ＥＳ细胞广泛应用于克隆动物制作、转基因动物生产、动物医学模型建立、真核细胞基因表达与调控的研究、细胞分化机制的探索、人及哺乳动物基因功能的研究以及细胞、组织、和器官的修复与移植研究。胚胎干细胞的研究和应用已成为生命科学研究的热点和前沿领域之一[4～ 8] 。自第一株 12 9小鼠ＥＳ细胞系建立以来 ,人们在生物学和医学等多个领域进行了广泛深入的…     

Efficient production of intersubspecific hybrid mice and embryonic stem cells by intracytoplasmic sperm injection

Recently, mice and embryonic stem (ES) cells with allelic polymorphisms have been used extensively in the field of genetics and developmental biology. In this study, we examined whether intersubspecific hybrid mice and ES cells with these genotypes can be efficiently produced by intracytoplasmic sperm injection (ICSI). Frozen-thawed spermatozoa from wild-derived strains, JF1 (Mus musculus molossinus), MSM (M. m. molossinus), HMI (M. m. castaneus), and SWN (M. m. spp.), were directly injected into mature oocytes from laboratory mice ([C57BL/6 x DBA2]F1; M. m. domesticus). The in vitro and in vivo developmental capacity of F1 embryos was not significantly different among the groups (P > 0.05), and term offspring were efficiently obtained in all groups (27%-34% of transferred embryos). However, the mean body and placental weights of the offspring differed significantly with genotype (P < 5 x 10(-10)), with the HMI hybrid greatest in both body and placental weights. In an application study using these F1 offspring, we analyzed their mitochondrial DNA using intersubspecific polymorphisms and found the consistent disappearance of sperm mitochondrial DNA in the F1 progeny. In a second series of experiments, we generated F1 blastocysts by injecting MSM spermatozoa into C57BL/6 oocytes and used them to generate hybrid ES cell lines. The ES cell lines were established at a high efficiency (9 lines from 20 blastocysts) and their allelic polymorphisms were confirmed. Thus, ICSI using cryopreserved spermatozoa allows the efficient and immediate production of a number of F1 hybrid mice and ES cell lines, which can be used for polymorphic analysis of mouse genetics.