DNA preparation method can influence outcome of transgenic animal experiments

Abstract

In our continuing quest to improve the efficiency of producing transgenic animals, we have compared the influence of two transgene purification techniques on the efficiency of creating transgenic sheep and mice. Three hundred eighty‐seven sheep zygotes and 2,737 mouse zygotes were microinjected with one of four transgenes. Transgenes were isolated from plasmid sequences either by agarose gel electrophoresis followed by gel extraction or by a single step sodium chloride gradient fractionation technique. Four transgenic sheep and 61 transgenic mice were produced. Both sheep and mice embryos responded similarly to transgene preparation methods. Overall, pregnancy rate was higher for recipients that received embryos injected with NaCl purified DNA (mean + SEM: 64 ± 7% vs. 38 ± 7%). Furthermore, offspring per zygote transferred (NaCl, 22 + 3% vs. Gel, 12 + 3%) and transgenics born per zygote transferred (NaCl, 3.9 ± 0.6% vs. Gel, 1.5 ± 0.6%) were higher when the NaCl purified DNA was used. However, the proportion of offspring born that were identified as transgenic did not differ between transgene purification methods. Transgenes responded differently to methods of preparation. One of the four genes yielded a significantly higher proportion of transgenics when the transgene was prepared by NaCl purification. These data suggest that on average the NaCl gradient purification technique results in a higher embryo survival rate to term for both sheep and mice, but the technique has no influence on rate of transgene integration.     

Repeat superovulation, non-surgical embryo recovery, and surgical embryo transfer in transgenic dairy goats

We investigated the capability of repeat superovulation and non-surgical embryo retrieval, coupled with surgical embryo transfer, to expedite the production of transgenic progeny from transgenic founder dairy goat does. In addition, we compared embryo yields, number of embryos transferred per recipient, pregnancy rates, and offspring born during both the traditional (September-December) and non-traditional (January-May) breeding seasons. Although there were no significant differences, there were numerically more transferable embryos recovered per flush (3.5+/-0.9 vs. 2.4+/-0.9 embryos; mean+/-S.E.M.) and increases in both the proportion of recipients that were pregnant (83 vs. 69% pregnant) and offspring born from total embryos transferred (67 vs. 53% offspring) during the traditional versus the non-traditional breeding season. The transfer of one, two or three embryos did not significantly affect the proportion of pregnant recipients during either season. However, there was a difference (P<0.05) in the proportion of offspring produced for one versus two embryo transfers (89 vs. 44% offspring, respectively) during the non-traditional breeding season. Overall, 14 transgenic offspring were produced from 54 total offspring born, and the kidding interval was reduced to <3 months for six of the seven transgenic does. In summary, repeat superovulation and non-surgical embryo retrieval, coupled with surgical embryo transfer, expedited the production of progeny from transgenic founder does.     

Highly Efficient Generation of Transgenic Sheep by Lentivirus Accompanying the Alteration of Methylation Status

Background

Low efficiency of gene transfer and silence of transgene expression are the critical factors hampering the development of transgenic livestock. Recently, transfer of recombinant lentivirus has been demonstrated to be an efficient transgene delivery method in various animals. However, the lentiviral transgenesis and the methylation status of transgene in sheep have not been well addressed.

Methodology/Principle Findings

EGFP transgenic sheep were generated by injecting recombinant lentivirus into zygotes. Of the 13 lambs born, 8 carried the EGFP transgene, and its chromosomal integration was identified in all tested tissues. Western blotting showed that GFP was expressed in all transgenic founders and their various tissues. Analysis of CpG methylation status of CMV promoter by bisulfate sequencing unraveled remarkable variation of methylation levels in transgenic sheep. The average methylation levels ranged from 37.6% to 79.1% in the transgenic individuals and 34.7% to 83% in the tested tissues. Correlative analysis of methylation status with GFP expression revealed that the GFP expression level was inversely correlated with methylation density. The similar phenomenon was also observed in tested tissues. Transgene integration determined by Southern blotting presented multiple integrants ranging from 2 to 6 copies in the genome of transgenic sheep.

Conclusions/Significance

Injection of lentiviral transgene into zygotes could be a promising efficient gene delivery system to generate transgenic sheep and achieved widespread transgene expression. The promoter of integrants transferred by lentiviral vector was subjected to dramatic alteration of methylation status and the transgene expression level was inversely correlative with promoter methylation density. Our work illustrated for the first time that generation of transgenic sheep by injecting recombinant lentivirus into zygote could be an efficient tool to improve sheep performance by genetic modification.     

Pronuclear visibility, development and transgene expression in IVM/IVF-derived porcine embryos

A total of 1550 zygotes was used to assess the timing of pronuclear visibility, embryo development following DNA microinjection, and transgene expression in IVM/IVF-generated porcine embryos. After centrifugation, pronuclei could be seen in 61.6% of zygotes. In 55.3% of these only 1 pronucleus was visible. Pronuclear visibility was highest at 20 h post-insemination. Zygotes were microinjected with 1 of 2 LacZ gene constructs driven by either the SV40 early promoter (pSVON) or the human cytoplasmic beta actin promoter (pbActinLacZ). Development and transgene expression were assessed after either 48 h or 7 d in culture. After 48 h, significantly more zygotes with a single visible pronucleus developed to the 8-cell stage than zygotes in which no pronucleus had been seen (43.0 vs 24.8%), while those with 2 pronuclei were intermediate (31.4%). After 7 d, no difference in development to the morula stage was observed between noninjected control embryos (25.5%) and embryos with 1 (21.0%) or 2 pronuclei (22.5%); however, the proportion of embryos reaching the morula stage in the nonpronuclear group was significantly reduced (9.1%). After 48 h in culture, transgene expression was significantly higher in embryos with 2 pronuclei at the time of injection than in those with 1 (36.4 vs 17.9%). After 7 d in culture, 41.5% of morulae derived from zygotes with 2 pronuclei and 29.97% of thsoe derived from zygotes with 1 pronucleus showed signs of transgene expression. At this stage, significantly more morulae expressed the pbActinLacZ than the pSVON transgene (43.8 vs 25.8%). More than 80% of putative transgenic morulae or blastocysts showed evidence of mosaicism. These results demonstrate that IVM/IVF porcine embryos are able to develop in culture and express a microinjected transgene.     

Gene transfer efficiency during gestation and the influence of co-transfer of non-manipulated embryos on production of transgenic mice

Litter size of DNA microinjected zygotes is lower than for non-manipulated zygotes. The rate of embryonic and fetal survival in early, mid and late gestation was determined to assess whether DNA integration was responsible for embryonic losses. Also, the effect of including non-microinjected embryos with injected embryos on pregnancy rate and transgenic pup production was determined. In Experiment 1, one-cell embryos from immature CD-1 mice were microinjected with a whey acidic protein promoter-human protein C gene construct. One hour after microinjection embryos were transferred to pseudopregnant recipients (45 transfers of 30 embryos each). Fifteen recipients were sacrificed on day 4, 12 and 18 of gestation and the embryos/fetuses analysed for the transgene. The percentage of embryos or fetuses that were positive for the transgene was not significantly different at any day. However, the number of viable embryos at day 4 was significantly greater than fetuses on days 12 or 18. In addition, a high degree of mosaicism was observed in day 18 fetuses and placentae recovered. In Experiment 2, one-cell embryos from CD-1 mice were microinjected and co-transferred with non-manipulated embryos (C57BL/6). Pregnancy rate and the total number of pups born were improved by addition of non-injected embryos. However, the number of transgenic mice produced was similar whether non-injected embryos were included or not. There were 32.2% (15/46) transgenic pups when 0 non-injected embryos were transferred compared with 15.1% (13/86) transgenic pups when 4 or 8 non-injected embryos were added to the transfers. In summary, a high degree of embryonic and fetal mortality occurs among microinjected embryos. Furthermore, since the percentage of transgenesis did not change throughout pregnancy, DNA integration does not appear to account for all of the embryonic losses. other factor(s) related to the microinjection procedure may be involved in the embryonic and fetal failure of microinjected embryos. Addition of non-injected embryos, although it increased pregnancy rate and the number of pups born from microinjected embryos, actually decreased the number of transgenic pups obtained per pregnancy.     

Pronuclear injection for the production of transgenic mice

Transgenic mice have been instrumental in dissecting the role of various neuronal proteins under both physiological and pathological conditions. Pronuclear injection is the most widely used protocol for the generation of transgenic mice. Here, we describe all steps involved from DNA purification to the set up of a mouse colony including vasectomy, injection of the DNA into a donor zygote, transfer of injected zygotes into recipient foster mice, screening of offspring and establishment of transgenic mouse lines. We discuss the use of neuron-specific promoters to express proteins with a role in Alzheimer disease. Transgenic expression of a truncated form of the microtubule-associated protein tau (delta tau) is used as an example for the anticipated results.     

Efficient production of transgenic cloned calves using preimplantation screening

The genetic manipulation of donor cells before nuclear transfer (NT) enables prior selection for transgene integration. However, selection for genetically modified cells using antibiotic drugs often results in mixed populations, resulting in a mixture of transgenic and nontransgenic donor cells for NT. In this study, we attempted to develop efficient strategies for the generation of human bile salt-stimulated lipase (BSSL) transgenic cows. Preimplantation screening by either biopsy or green fluorescent protein (GFP) expression was used to detect NT-derived BSSL transgenic embryos to ensure that the calf born would be transgenic. We compared the development rates of NT-derived embryos from G418- and GFP-selected donor cells. There were no significant differences (P < 0.001) in cleavage rate (67.2% vs. 60.0%) and blastocyst formation rate (44.9% vs. 41.2%). We also compared the pregnancy rates of the G418/biopsy and GFP preimplantation screened NT-derived blastocysts. The Day 40 pregnancy rate of the G418/biopsy group (40%) was lower than that of the GFP group (57%), but the calf birth rate of the G418/biopsy group (40%) was higher than that of the GFP group (21%). Healthy BSSL transgenic calves were born after both screening processes. This is the first report of biopsy-screened cloned transgenic animals. The results suggest that both selection methods are useful for detecting transgenic NT embryos without negatively affecting their development into viable transgenic offspring.     

A comparative study on the integration of exogenous DNA into mouse, rat, rabbit, and pig genomes.

Transgenic mammals, from small laboratory rodents to domestic animals, have been successfully produced to date, but their production efficiency within or across species has been variable. This is probably due to the differences in the type of injected DNA and/or technical procedures employed in each laboratory, as well as the reproductive characteristics of the species. Here we report the direct comparison of the efficiencies of producing transgenic mice, rats, rabbits and pigs by one technician using a fusion gene composed of the bovine alpha S1-casein promoter and human growth hormone (hGH) gene. Before the fusion gene was injected into the zygotes, high magnitude centrifugation to visualize the pronuclei was necessary for all of the pig zygotes and one-third of the rabbit zygotes, but not for mouse and rat zygotes. Post-injection survival of the mouse zygotes (67.1%) was lower than those of the rat, rabbit and pig zygotes (89.6 to 100%). The volume change of the pronucleus following DNA injection was the lowest in mice (50% increase), moderate in rabbits (148% increase), and the most prominent in rats (238% increase). The data from only 1 pig zygote indicated a 22% increase in the pronucleus volume by DNA injection. The PCR analyses of the tail DNA of new born offspring indicated that 0.8% (4/493), 4.8% (22/463), 0.8% (3/367) and 0.9% (2/221) of the injected eggs in mice, rats, rabbits and pigs, respectively, developed into transgenic offspring. Some of the founder animals in all four species expressed the transgene in the mammary gland which was confirmed in hGH mRNA by RT-PCR and/or hGH peptide in Witch's milk with ELISA. These results suggest that the maximum volume of DNA solution injectable into the pronucleus is a possible factor explaining the species differences in the production of transgenic animals.     

Generation of Ci-Brachyury-GFP stable transgenic lines in the ascidian Ciona savignyi

We report generation of stable transgenic lines of the ascidian Ciona savignyi carrying a Ciona intestinalis-Brachyury-promoter/Green Fluorescent Protein-reporter (Ci-Bra-GFP) construct. The transgenic lines were made using a technique in which the endonuclease I-SceI was coinjected into fertilized eggs with a transgene construct containing flanking recognition sites for I-SceI. Two founder animals, out of 12 F(0) adults tested, were found to transmit the transgene to their offspring (F(1)s) at frequencies of 42% and 23%. The transgene was further inherited by the F(2) in a Mendelian fashion and displayed nonmosaic expression, indicating integration into the genome. The Mendelian inheritance and the absence of mosaicism persisted through the F(3) and F(4) generations. Southern blot analyses showed that the transgene was organized in tandem arrays of no more than 10 copies. Using these Ci-Bra-GFP transgenics, we describe cellular movements and shape changes involved in notochord morphogenesis in both wildtype and mutant embryos.     

Fetal development of mouse oocytes and zygotes cryopreserved in a nonconventional freezing medium

This study (1) analyzed fetal development of mouse embryos after oocyte cryopreservation in CJ2, a choline-based medium, (2) examined the effect of culture duration in vitro on subsequent fetal development, and (3) compared survival and fetal development of zygotes frozen in embryo transfer freeze medium (ETFM; sodium-based medium) or CJ2. Unfertilized oocytes and zygotes were cryopreserved using a slow-cooling protocol. After thawing, oocytes were inseminated after drilling a hole in their zona, cultured in vitro either to the two-cell or blastocyst stage, and transferred to the oviducts or uterine horns of recipient mice. In parallel experiments, frozen-thawed zygotes were similarly cultured and transferred. Implantation rates for transferred embryos were high (range 66-88%), regardless of whether they had been frozen as oocytes or zygotes and whether they had been transferred to the oviduct or uterus. However, fetal development was significantly higher when two-cell embryos were transferred. With blastocyst transfer, control embryos implanted and produced a greater proportion of fetuses than did oocytes frozen in CJ2, whereas transfer at the two-cell stage resulted in similar proportions of implantation sites and fetuses. Blastocyst transfer of zygotes cryopreserved in ETFM or CJ2 produced similar fetal development rates (23.6% vs 20.0%), but when frozen-thawed zygotes were transferred at the two-cell stage the fetal development rates were higher in the ETFM group (53.3%) than in the CJ2 group (32.0%). A high proportion (46.7%) of oocytes frozen in CJ2 in a nonprogrammable freezer and plunged at -20 degrees C developed into live offspring. This study shows that in the mouse (1) oocytes frozen in CJ2 can develop into viable fetuses, (2) prolonging culture in vitro has a detrimental effect on embryo transfer outcome, and (3) CJ2 offers no advantage for zygote cryopreservation.     

SHORT COMMUNICATION: Double pronuclei injection of DNA into zygotes increases yields of transgenic mouse lines

Transgenic mice are increasingly used for gene function and regulation studies of mammalian genes. A major limitation is the necessity to produce a large number of founder animals to obtain one line with the desired expression pattern. We developed a method, the 'double pronuclei injection', that doubles the yield of transgenic mouse lines obtained from each injection session, thereby reducing the time, effort and costs of generating transgenic mice. Three transgenic vectors were microinjected into the male and female pronuclei of zygotes. Approximately half of the resulting born mice were transgenic. This represented a 60% increase in the yield of founders per injected zygote, and a 100% increase in the yield of transgenic mice per born animal, when compared to yields obtained using single pronucleus injection. This method should prove useful for generating large numbers of transgenic mice for gene regulation studies and for conditional gene ablation     

Blastocyst viability and generation of transgenic cattle following freezing of in vitro produced, DNA-injected embryos

This study examined whether the viability, determined in vitro, of DNA-injected bovine embryos produced in vitro was affected by freezing, and if the frozen embryos developed to term following transfer to recipients. In vitro fertilized zygotes were injected with the pBL1 gene and then co-cultured with mouse embryonic fibroblasts (MEF) in CR1aa medium. Embryos were prepared for cryopreservation by exposure to a 10% (v/v) glycerol solution, loaded into 0.25 ml straws and then frozen by conventional slow freezing. Thawing was by rapid warming in water (37 degrees C) and embryos were rehydrated in PBS diluents of 6%, 3% and 0% (v/v) glycerol supplemented with 0.25 M sucrose and 0.5% (w/v) BSA. In Experiment 1, blastocysts that developed from DNA-injected embryos were individually classified into three morphological groups and three stages of development prior to freezing. DNA-injected blastocysts of excellent quality at freezing showed a higher survival rate (78.8+/-10.6%) after thawing than those of good (60. 9+/-16.4%) or fair (12.5+/-5.9%) quality (P<0.05). Post-thaw survival rate, judged in vitro, increased with more advanced stage of blastocyst development at freezing (early 48.8+/-15.9%, mid 52. 1+/-12.6% and expanded 71.2+/-1.1; P<0.05). In Experiment 2, the frozen/thawed embryos were transferred to recipients to examine in vivo viability. Following transfer of one or two embryos per recipient, pregnancy rates at 60 days of gestation were 13.6% (13/96) for frozen embryos and 26.5% (43/162) for fresh embryos (P<0. 05). Of the 12 live calves born from the frozen/thawed embryos, two males (18.3%) were transgenic. None of the live-born calves derived from fresh embryos exhibited the transgene. One of transgenic bulls did not produce transgenic sperm. Three out of 23 calves (13.0%) produced from cows inseminated with semen of the other bull were transgenic, suggesting that this animal was a germ-line mosaic. These studies indicated that the viability of in vitro produced, DNA-injected bovine blastocysts was affected by freezing and by both the quality and stage of development of the embryo prior to freezing. The generation of transgenic cattle demonstrates that it is feasible to freeze DNA-injected, in vitro produced embryos.     

Dicer1转基因小鼠模型的建立

目的建立Dicer1转基因小鼠模型。方法构建pcDNA3.1-Dicer1转基因构件,经酶切、纯化后通过显微注射方法导入BDF1小鼠受精卵原核并移植到同期受孕的ICR受体母鼠输卵管内。出生后仔鼠用PCR和Southern方法检测鼠尾DNA鉴定基因型,通过免疫组化检测Dicer1基因表达。结果显微注射172枚卵,移植119枚卵于3只受体输卵管中,2只怀孕,共产仔15只,经PCR检测获得6只阳性鼠,Southern检测6只均为阳性。对Southern检测阳性转基因小鼠子代进行RT-PCR检测和免疫组化分析证明Dicer1基因在肝脏、肾脏、肺内均有表达。对腹腔肿胀的转基因阳性1号鼠解剖发现肝脏、脾脏明显增大,胚胎发育异常。结论成功建立Dicer1基因表达的转基因小鼠模型,该模型为进一步研究DICER1基因功能及miRNA的表达及功能等奠定基础。     

激肽释放酶转基因大鼠模型的建立

目的建立KLK1转基因大鼠模型。方法腹腔注射PMSG-HCG（150-150IU/kg）超排不同周龄（4-8周）SD大鼠比较超排效果的差异,以可用于注射胚胎数作为评判标准确定最佳超排周龄。构建pBC-klk1转基因构件,经酶切、纯化后通过显微注射方法导入SD大鼠受精卵原核并移植到同期受孕的SD受体母鼠输卵管内。出生后仔鼠用PCR和Southern方法检测鼠尾DNA鉴定基因型,通过RT-PCR和免疫组化方法检测klk1基因表达。结果4-8周SD大鼠超排后分别获得受精卵14±14.8、30±15.2、13.3±13.7、13±14.7、8±5.7,5周龄大鼠超排效果最好,与其他周龄大鼠相比有显差异,P〈0.05;显微注射1538枚卵,移植685（44.53%）枚卵于31只受体输卵管中,12（12/31,38.7%）只怀孕,共产仔62只,经PCR检测获得6只阳性鼠,Southern检测3只阳性。对Southern检测阳性转基因大鼠子代进行RT-PCR检测和免疫组化分析证明klk1基因在肾脏、胰腺和乳腺内表达。结论成功建立klk1基因表达的转基因大鼠模型,该模型是高血压病研究的理想动物模型。     

Silencing of fat-1 transgene expression in sheep may result from hypermethylation of its driven cytomegalovirus (CMV) promoter

The fat-1 gene was isolated from roundworm Caenorhabditis elegans, and built into pIRES2-EGFP expression vectors driven by cytomegalovirus (CMV) promoter or cytomegalovirus enhancer and chickenβ-actin (CAG) promoter. Both CMV- and CAG-driven expression vectors were transfected to sheep fetal fibroblast cells. Positive transfected cells were used as donors for somatic cell nuclear transfer (SCNT) and the cloned embryos were transferred into the oviducts of synchronized recipient sheep. Two lambs derived from CMV vector and three lambs derived from CAG vector developed to term. Although Southern analyses using tissues from the two lambs derived from CMV vectors indicated integration of fat-1 gene into the genome, fat-1 mRNAs were not detected by RT-PCR. However, there was fat-1 expression (detected by RT-PCR) in tissues from transgenic lambs driven by CAG vectors. To investigate potential mechanisms involved in the two transgene models, methylation state of the vector promoters were examined. In CMV-driven transgenics, CMV promoters had almost no methylation in transfected cells and the resultant cloned embryos, whereas high methylations were detected in tissues and organs in transgenic lambs. In the CAG-driven transgenics, there were almost no methylations in transgenic cells and transgenic cloned embryos, and cloned lambs expressed fat-1 mRNA (detected by RT-PCR). Moreover, although SV40 promoters which drove neo/kan marker gene in CMV vectors were highly methylated in tissues from transgenic lambs, they were without methylation in cells and embryos. Therefore, we concluded that highly methylated CMV promoters induced the silence of fat-1 transgene expression in sheep. Furthermore, CAG promoter, but not CMV promoter was suitable for generation of fat-1 transgenic sheep.     

Development of porcine embryos and offspring after intracytoplasmic sperm injection with liposome transfected or non-transfected sperm into in vitro matured oocytes.

The objective of this study was to evaluate in vitro and in vivo development of porcine in vitro matured (IVM) porcine oocytes fertilised by intracytoplasmic sperm injection (ICSI) and the possibility of producing transgenic embryos and offspring with this procedure. Activated ICSI oocytes had a higher pronuclear formation than non-activated ICSI oocytes (mean 64.8+/-17.3% vs 28.5+/-3.4%, p<0.05). When the zygotes with two pronuclei were cultured to day 2, there was no difference (p<0.05) in the cleavage rate (mean 60.0+/-7.0% vs 63.3+/-12.7%) between the two groups. The blastocyst rate in the activation group was significantly higher than that in the non-activation group (mean 30.0+/-11.6% vs 4.6+/-4.2%, p<0.05). After injection of the sperm transfected with DNA/liposome complex, destabilised enhanced green fluorescent protein (d2EGFP) expression was not observed on day 2 in either cleaved or uncleaved embryos. But from day 3, some of the embryos at the 2-cell to 4-cell stage started to express d2EGFP. On day 7, about 30% of cleaved embryos, which were in the range of 2-cell to blastocyst stage, expressed d2EGFP. However, for the IVF oocytes inseminated with sperm transfected with DNA/liposome complex, and for oocytes injected with sperm transfected with DNA/liposome complex, and for oocytes injected with DNA/liposome complex following insemination with sperm not treated with DNA/liposome complex, none of the embryos expressed d2EGFP. Sixteen day 4 ICSI embryos derived from sperm not treated with DNA/liposome complex were transferred into a day 3 recipient. One recipient delivered a female piglet with normal birthweight. After transfer of the ICSI embryos derived from sperm transfected with DNA/liposome complex, none of the four recipients maintained pregnancy.     

Developmental patterns of zygotes from transgenic female mice with elevated tissue glutathione

Zygotes were collected from transgenic mice overexpressing glutathione synthetase to test the hypothesis that such zygotes are more capable of developing in suboptimal culture media than zygotes from non-transgenic (control) mice. The effects of injection of donor mice with gamma-glutamylcysteinyl ethyl ester (gamma-GCE) on embryonic development were also investigated. In addition, the effects of genetic background (i.e., transgenic vs. non-transgenic) and injection with gamma-GCE on developmental capacity in kSOM were studied after exposure of zygotes to diamide (0.01 mM, for 30 min). When cultured in modified Medium 16 significantly more pronuclear ova from transgenic females reached the morula (M) and early blastocyst (EB) stages than embryos derived from control mice. Genetic background significantly affected the proportions of embryos reaching 4- to 16-cell, M and EB stages during culture in modified Whitten's medium (WM); more zygotes collected from transgenic than from control mice developed. The injection of experimental mice with gamma-GCE significantly increased proportions of zygotes developing to M and EB stages in WM. Following exposure to diamide and subsequent culture in kSOM significantly more zygotes collected from transgenic mice reached the 4- to 16-cell stages than those from control females; a significant positive effect on developmental capacity was also seen after injection of donor mice with gamma-GCE. When cultured in suboptimal conditions, zygotes derived from transgenic mice overexpressing glutathione synthetase were more capable of developing than zygotes of non-transgenic control females. Zygotes from the transgenic mice also exhibited greater capacity to withstand toxic exposure to diamide. Present data suggest that commonly known strain differences in preimplantational development in vitro may reflect differences in the synthesis and/or metabolism of glutathione. J. Exp. Zool. 286:173-180, 2000.     

Increased milk yield in transgenic mice expressing insulin-like growth factor 1

Insulin-like growth factor 1 (IGF-1) mediates many of the actions of growth hormone. Overexpression of IGF-1 was reported to have endocrine and paracrine/autocrine effects on somatic growth in transgenic mice. To study the paracrine/autocrine effects of IGF-1 in mammary gland, transgenic mice were produced by pronuclear microinjection of a construct containing a bovine alpha-lactalbumin (alpha-LA) promoter linked to an ovine IGF-1 cNDA. This alpha-LA promoter has previously been shown to direct expression of a human factor VIII gene specifically to the mammary gland of transgenic mice. Three transgenic mouse lines were established as a result of microinjection of 398 embryos. Transgene expression was found in mammary gland at day 1 of lactation from these three lines. Progeny test were carried out by mating two transgenic males/one transgenic female to two nontransgenic females/one nontransgenic male. Mice from one line (line 1225) were all nonexpressors and the other (line 1372) failed to produce offspring. Milk yield was analyzed in the line 1137 that produced 10 mice, of which three were transgenic females and three nontransgenic females. All of the three transgenic females showed integration of the transgene and expressed transgene IGF-1 mRNA in the mammary gland. Milk yields from days 5, 10, and 15 of lactation were significant greater in transgenic expressors than in their nontransgenic littermates. Specifically, there is 17.9% increase in total milk yield from these three days for transgenics compared with nontransgenics. These results demonstrate that local overexpression of IGF-1 in transgenic mice is capable to stimulating milk yield during the first lactation.     

A comparison of mouse and rabbit embryos for the production of transgenic animals by pronuclear microinjection

Procedures for the production of transgenic animals have low overall efficiency. To evaluate factors responsible for low efficiency, zygotes of two species, varying intensities of microscope light, different qualities of injection pipettes, and six different genes were tested for their influence on the efficiency of pronuclear gene injection for the production of transgenic rabbits and mice. Rabbit zygotes were less sensitive to mechanical manipulation during injection than mouse zygotes. Exposing zygotes to a microscope light intensity of 5550 lx significantly reduced their cleavage rate, while a lower intensity (2280 lx) did not. Using pipettes with a filament for pronuclear gene injection of mouse zygotes resulted in a higher cleavage rate of zygotes after injection than when pipettes were used without filament (30.3 vs 20.6%). Implantation rates varied between 2.9% (HB72CAT) and 23.1% (ts 58-2) depending on the gene used. No transgenic animals were obtained after injection of uteroglobin-CAT-hybrid genes (B2B3UGCAT, HB72CAT), while all other genes used (UG 11.8, UGTAg, RSV lacZ, ts 58-2) resulted in transgenic embryos, fetuses, and newborn animals.     

Production and breeding of transgenic cattle using in vitro embryo production technology

Transgenic technology permits major modifications of phenotype by introducing subtle changes in genotype. For domestic farm species, genetic modification may be used to enhance agricultural production or to generate novel genotypes capable of producing heterologous proteins for biomedical applications. The advent of in vitro embryo production techniques has facilitated the large-scale, commercial use of transgenic technology in cattle. Accordingly, we employed in vitro-produced zygotes and embryos in an effort to generate transgenic cattle. Overall, pronuclei in 36,530 in vitro matured and fertilized zygotes were microinjected with a construct designed to express human alpha-lactalbumin in the mammary gland. Of these, 1,472 developed and were transferred to recipients, including 148 twin transfers. Initial pregnancy rate on Day 30 of gestation was 28% (374/1,324). Subsequent calving rate was 17% (226/1,324). Eighteen calves (8%) were transgenic. In vitro produced embryos were used to facilitate breeding of transgenic bulls. Frequency of transgene transmission varied from 3 to 54% between bulls, indicating varying degrees mosaicism. Embryos produced in vitro by these bulls were biopsied and screened for transgenesis prior to transfer to recipients; so far all (6/6) calves born from screened, transgenic embryos were themselves transgenic.