Aberrant gene expression in deceased transgenic cloned calves

Several transgenic cloned species have been obtained; however, the efficiency of transgenic cloning remains very low, even lower than cloning. Many experiments have demonstrated abnormal growth and development, and inappropriate gene expression in cloned animals. In this study, we examined the expression of 19 development-related genes in lungs of three normal controls and three aberrant transgenic cloned calves. Results showed in transgenic cloned calves, 84.2% genes had decreased expression levels, however, 5.3% genes had increased levels. This study suggests transgenic cloning and the aberrant expression would cause abnormal growth and development in transgenic cloned calves. To our knowledge, this is the first time that gene expression was examined in transgenic cloned cattle. These findings may have some implications in understanding the low efficiency of the transgenic cloning.     

Tetracycline-inducible gene expression in nuclear transfer embryos derived from porcine fetal fibroblasts transformed with retrovirus vectors

A critical problem of transgenic livestock production is uncontrollable constitutive expression of the foreign gene, which usually results in serious physiological disturbances in transgenic animals. One of the best solutions for this problem may be use of controllable gene expression system. In this study, using retrovirus vectors designed to express the enhanced green fluorescent protein (EGFP) gene under the control of the tetracycline-inducible promoter, we examined whether the expression of the transgene could be controllable in fibroblast cells and nuclear transfer (NT) embryos of porcine. Transformed fibroblast cells were cultured in medium supplemented with or without doxycycline (a tetracycline analog) for 48 hr, and the induction efficiency was measured by comparing EGFP gene expression using epifluorescence microscopy and Western and Northern blot analyses. After the addition of doxycycline, EGFP expression increased up to 17-fold. The nuclei of transformed fibroblast cells were transferred into enucleated oocytes. Fluorescence emission data revealed strong EGFP gene expression in embryos cultured with doxycycline, but little or no expression in the absence of the antibiotic. Our results demonstrate the successful regulation of transgene expression in porcine nuclear transfer embryos, and support the application of an inducible expression system in transgenic pig production to solve the inherent problems of side-effects due to constitutive expression of the transgene.     

Inducible gene expression in transgenic Xenopus embryos

The amphibian Xenopus laevis has been successfully used for many years as a model system for studying vertebrate development. Because of technical limitations, however, molecular investigations have mainly concentrated on early stages. We have developed a straightforward method for stage-specific induction of gene expression in transgenic Xenopus embryos [1] [2]. This method is based on the Xenopus heat shock protein 70 (Xhsp70 [3]) promoter driving the expression of desired gene products. We found that ubiquitous expression of the transgene is induced upon relatively mild heat treatment. Green fluorescent protein (GFP) was used as a marker to monitor successful induction of gene expression in transgenic embryos. We used this method to study the stage specificity of Wnt signalling function. Transient ectopic Wnt-8 expression during early neurulation was sufficient to repress anterior head development and this capacity was restricted to early stages of neurulation. By transient over-expression at different stages of development, we show that frizzled-7 disrupted morphogenesis sequentially from anterior to posterior along the dorsal axis as development proceeds. These results demonstrate that this method for inducible gene expression in transgenic Xenopus embryos will be a very powerful tool for temporal analysis of gene function and for studying molecular mechanisms of vertebrate organogenesis.     

Aberrant imprinting in mouse trophoblast stem cells established from somatic cell nuclear transfer-derived embryos

Although phenotypic abnormalities frequently appear in the placenta following somatic cell nuclear transfer (SCNT), mouse trophoblast stem cells (TSCs) established from SCNT embryos reportedly show no distinct abnormalities compared with those derived from normal fertilization. In this study, we reexamined SCNT–TSCs to identify their imprinting statuses. Placenta-specific maternally imprinted genes (Gab1, Slc38a4, and Sfmbt2) consistently showed biallelic expression in SCNT–TSCs, suggesting their loss of imprinting (LOI). The LOI of Gab1 was associated with decreased DNA methylation, and that of Sfmbt2 was associated with decreased DNA methylation and histone H3K27 trimethylation. The maternal allele of the intergenic differentially methylated region (IG–DMR) was aberrantly hypermethylated following SCNT, even though this region was prone to demethylation in TSCs when established in a serum-free chemically defined medium. These findings indicate that the development of cloned embryos is associated with imprinting abnormalities specifically in the trophoblast lineage from its initial stage, which may affect subsequent placental development.     

Gene expression patterns in bovine in vitro-produced and nuclear transfer-derived embryos and their implications for early development

Bovine in vitro-produced (IVP) and nuclear transfer (NT)-derived embryos differ from their in vivo-developed counterparts in a number of characteristics. A preeminent observation is the occurrence of the large offspring syndrome, which is correlated with considerable embryonic fetal and postnatal losses. We summarize here results from our studies in which we compared gene expression patterns from IVP and NT-derived embryos with those from their IVP counterparts. Numerous aberrations were found in IVP and NT-derived embryos, including a complete lack of expression, an induced expression, or a significant up- or downregulation of a specific gene. These alterations may affect a number of physiological functions and are considered as a kind of stress response of the embryos to deficient environmental conditions. We hypothesize that the alterations are caused by epigenetic modifications, primarily by changes in the methylation patterns. Unravelling these epigenetic modifications is promising to reveal the underlying mechanisms of the large offspring syndrome.     

Dogs cloned from fetal fibroblasts by nuclear transfer

Fetal fibroblasts have been considered as the prime candidate donor cells for the canine reproductive cloning by somatic cell nuclear transfer (SCNT) in regard to the future production of transgenic dogs, mainly due to their higher developmental competence and handling advantage in gene targeting. In this study, the cloning efficiency with canine fetal fibroblasts as donor cells was determined. A total of 50 presumptive cloned embryos were reconstructed, activated and transferred into the oviducts of naturally synchronous recipient bitches. While the fusion rate (76.9%) was similar to those of our earlier studies with adult fibroblasts as donor cells (73.9–77.1%), a high cloning efficiency (4.0%; 2 births/50 embryos transferred) was found compared to the previous success rate with adult fibroblasts (0.2–1.8%). The cloned beagles were healthy and genotypically identical to the donor fibroblast cells. This study shows that a fetal fibroblast cell would be an excellent donor for future production of transgenic dogs via gene targeting in this cell followed cloning using SCNT technology.     

Birth of cloned miniature pigs derived from somatic cell nuclear transferred embryos activated by ultrasound treatment

The present study was carried out to determine (1) the optimal duty cycle of ultrasound for activation of pig oocytes and cloned embryos derived from miniature pig fetal fibroblasts and (2) whether cloned embryos can develop to term following activation by ultrasound stimulation. When oocytes were exposed to ultrasound with 20% or 30% duty cycle, the blastocyst formation rates were significantly (P < 0.05) higher than that of oocytes exposed to ultrasound with 10% duty cycle. In contrast, the blastocyst formation rate of cloned embryos decreased as the duty cycle of ultrasound increased; the value of embryos exposed to ultrasound with 10% duty cycle was significantly (P < 0.05) higher than that of embryos exposed to ultrasound with 50% duty cycle. When cloned embryos exposed to ultrasound with 10% duty cycle were transferred into the oviducts of two recipient gilts to assess their development in vivo, the pregnancy of one of the gilts was maintained to term and two piglets were delivered via Cesarean section. The results of the present study showed that (1) although the duty cycle of ultrasound affects in vitro development after activation of both pig oocytes and miniature pig cloned embryos, the optimal duty cycle is different between them and (2) miniature pig cloned embryos have the ability to develop into piglets after activation by ultrasound stimulation.     

克隆猪技术及其在转基因猪研究中的应用

哺乳动物核移植技术是一种可以获得基因组遗传信息完全相同的后代的生物技术。猪体细胞核移植技术包括以下几个环节：卵母细胞的体外成熟、供体细胞的分离和处理、体细胞的核转移、重构胚胎的人工激活、胚胎体外培养和胚胎移植。由于该技术在最近几年的迅速发展,很多实验室已通过该技术成功获得了克隆猪后代。核移植克隆猪技术的出现为生产转基因猪提供了一种有效的方法,并且是目前生产基因打靶猪的惟一方法。至今利用克隆猪技术已经成功获得了一系列的转基因猪和基因敲除猪。以核移植技术产生基因修饰猪目前正处于从基础研究走向应用的过渡阶段。尽管猪体细胞核移植克隆的效率（出生克隆猪数占所用卵数的比例）还不高,但是由于通过该技术能够对猪基因组进行特定的修饰,确保生产的克隆动物100％为转基因动物,从而大大提高了转基因猪的制作效率,可以预料猪核移植技术将会对医药业和农业产生重大的影响。     

Aberrant profile of gene expression in cloned mouse embryos derived from donor cumulus nuclei

Somatic cell nuclear transfer has successfully been used to clone several mammalian species including the mouse, albeit with extremely low efficiency. This study investigated gene expression in cloned mouse embryos derived from cumulus cell donor nuclei, in comparison with in vivo fertilized mouse embryos, at progressive developmental stages. Enucleation was carried out by the conventional puncture method rather than by the piezo-actuated technique, whereas nuclear transfer was achieved by direct cumulus nuclear injection. Embryonic development was monitored from chemically induced activation on day 0 until the blastocyst stage on day 4. Poor developmental competence of cloned embryos was observed, which was confirmed by lower cell counts in cloned blastocysts, compared with the in vivo fertilized controls. Subsequently, real-time polymerase chain reaction was used to analyze and compare embryonic gene expression at the 2-cell, 4-cell, and blastocyst stages, between the experimental and control groups. The results showed reduced expression of the candidate genes in cloned 2-cell stage embryos, as manifested by poor developmental competence, compared with expression in the in vivo fertilized controls. Cloned 4-cell embryos and blastocysts, which had overcome the developmental block at the 2-cell stage, also showed up-regulated and down-regulated expression of several genes, strongly suggesting incomplete nuclear reprogramming. We have therefore demonstrated that aberrant embryonic gene expression is associated with low developmental competence of cloned mouse embryos. To improve the efficiency of somatic cell nuclear transfer, strategies to rectify aberrant gene expression in cloned embryos should be investigated.This project was funded mainly by the National University of Singapore (grant number: R-174-000-065-112/303).     

Production of porcine cloned transgenic embryos expressing green fluorescent protein by somatic cell nuclear transfer

In the present study, nuclear transferred embryos (NTEs) were reconstructed by using pig fetal fibroblasts as donors and in vitro matured oocytes as recipients. The effects of G418 selection on donor cells, duration of IVM of prepubertal gilt oocytes and oxygen tension in IVM of oocytes were investigated. The results were as follows: (i) When G418 selected cells expressing GFP were used as donors, the cleavage rate of NTEs decreased drastically in comparison to NTEs derived from donors without antibiotic selection (45.7% vs. 71.6%, p<0.05). For the blastocyst rate, no significant difference was observed between two groups (10% vs. 10.4%, p>0.05). (ii) The rate of nuclear maturation of oocytes increased significantly when IVM duration time was extended from 36h to 42h (83.6% vs. 96.7%, p<0.05). However, no statistical difference were observed between NTEs derived from oocytes of 36 h IVM group and NTEs from oocytes of 42 h IVM group in the rates of cleavage (59.3% vs. 73.6%, p>0.05) and blastocyst formation (9.3% vs. 13.2%, p>0.05); (iii) no significant difference was observed between NTEs reconstructed from oocytes matured under lower oxygen (7% O₂) tension and NTEs derived from oocytes matured under higher oxygen tension (20% O₂) in cleavage rate (70.6% vs. 67.1%, p>0.05) and blastocyst rate (11.8% vs. 12.8%, p>0.05). These results suggest that: (i) G418 selection does not have a significant effect on cleavage rate of NTEs expressing GFP. (ii) Nuclear maturation is greatly improved by prolonging IVM duration from 36 to 42 h, while no significant differences were observed for developmental potential of transgenic embryos. Thus IVM 42 h is the better choice in order to obtain maximum number of MII oocytes as recipients. (iii) Lower oxygen tension and higher oxygen tension in IVM have no significant effect on development of cloned embryos.     

Production of porcine cloned transgenic embryos expressing green fluorescent protein by somatic cell nuclear transfer

In the present study, nuclear transferred embryos (NTEs) were reconstructed by using pig fetal fibroblasts as donors and in vitro matured oocytes as recipients. The effects of G418 selection on donor cells, duration of IVM of prepubertal gilt oocytes and oxygen tension in IVM of oocytes were investigated. The results were as follows: (i) When G418 selected cells expressing GFP were used as donors, the cleavage rate of NTEs decreased drastically in comparison to NTEs derived from donors without antibiotic selection (47.5% vs. 71.6%, p<0.05). For the blastocyst rate, no significant difference was observed between two groups (10% vs. 10.4%, p>0.05). (ii) The rate of nuclear maturation of oocytes increased significantly when IVM duration time was extended from 36 to 42 h (83.6% vs. 96.7%, p<0.05). However, no statistical difference was observed between NTEs derived from oocytes of 36 h IVM group and NTEs from oocytes of 42 h IVM group in the rates of cleavage (59.3% vs. 73.6%, p>0.05) and blastocyst formation (9.3% vs. 13.2%, p>0.05); (iii) no significant difference was observed between NTEs reconstructed from oocytes matured under lower oxygen (7% O₂) tension and NTEs derived from oocytes matured under higher oxygen tension (20% O₂) in cleavage rate (70.6% vs. 67.1%, p>0.05) and blastocyst rate (11.8% vs. 12.3%, p>0.05). These results suggest that: (i) G418 selection does not have a significant effect on cleavage rate of NTEs expressing GFP. (ii) Nuclear maturation is greatly improved by prolonging IVM duration from 36 to 42 h, while no significant differences were observed for developmental potential of transgenic embryos. Thus IVM 42 h is the better choice in order to obtain maximum number of MII oocytes as recipients. (iii) Lower oxygen tension and higher oxygen tension in IVM have no significant effect on development of cloned embryos.     

Production of porcine cloned transgenic embryos expressing green fluorescent protein by somatic cell nuclear transfer

In the present study, nuclear transferred embryos (NTEs) were reconstructed by using pig fetal fibroblasts as donors and in vitro matured oocytes as recipients. The effects of G418 selection on donor cells, duration of IVM of prepubertal gilt oocytes and oxygen tension in IVM of oocytes were investigated. The results were as follows: (i) When G418 selected cells expressing GFP were used as donors, the cleavage rate of NTEs decreased drastically in comparison to NTEs derived from donors without antibiotic selection (45.7% vs. 71.6%, p<0.05). For the blastocyst rate, no significant difference was observed between two groups (10% vs. 10.4%, p>0.05). (ii) The rate of nuclear maturation of oocytes increased significantly when IVM duration time was extended from 36h to 42h (83.6% vs. 96.7%, p<0.05). However, no statistical difference were observed between NTEs derived from oocytes of 36 h IVM group and NTEs from oocytes of 42 h IVM group in the rates of cleavage (59.3% vs. 73.6%, p>0.05) and blastocyst formation (9.3% vs. 13.2%, p>0.05); (iii) no significant difference was observed between NTEs reconstructed from oocytes matured under lower oxygen (7% O₂) tension and NTEs derived from oocytes matured under higher oxygen tension (20% O₂) in cleavage rate (70.6% vs. 67.1%, p>0.05) and blastocyst rate (11.8% vs. 12.8%, p>0.05). These results suggest that: (i) G418 selection does not have a significant effect on cleavage rate of NTEs expressing GFP. (ii) Nuclear maturation is greatly improved by prolonging IVM duration from 36 to 42 h, while no significant differences were observed for developmental potential of transgenic embryos. Thus IVM 42 h is the better choice in order to obtain maximum number of MII oocytes as recipients. (iii) Lower oxygen tension and higher oxygen tension in IVM have no significant effect on development of cloned embryos.     

Production of porcine cloned transgenic embryos expressing green fluorescent protein by somatic cell nuclear transfer

Somatic cell nuclear transfer (SCNT), combined with genome modification techniques, is a very pow-erful tool for agriculture, medicine and fundamental research on basic biological mechanisms. The effi-ciency of producing transgenic animals is greatly prom…     

Mosaic expression pattern of the nptII gene in transgenic tobacco plants Nu 21

Mosaic expression pattern of the nptII gene in transgenic tobacco Nu 21 leaf somatic cells was demonstrated. Inheritance of this phenotype (in T1-T4 and F1 backcrosses) was revealed. Three plant groups were distinguished, with low frequency of variegation manifestation (0-21.8%), with the high frequency of mosaic progeny (63.1 to 100%), and the intermediate type, where the frequency of the appearance of mosaic plants varied in a wide range, from 0 to 100%. The data obtained suggested the existence of two metastable states of a transgene in the leaf disk somatic cells (active and silenced), which could be associated with DNA modification, i.e., methylation of cytosine within the nptII gene sequence.     

Construction of multiple shRNAs expression vector that inhibits FUT1 gene expression and production of the transgenic SCNT embryos in vitro

Enterotoxigenic Escherichia coli F18 is a major pathogen that causes postweaning diarrhoea and edema disease in piglets. The alpha(1,2)-fucosyltransferase (FUT1) gene has been identified as an ideal candidate gene for controlling the expression of the receptor for ECF18 bacteria. Therefore, the use of RNA interference (RNAi) to study the function of the FUT1 gene and to produce FUT1 knockdown transgenic pig would be highly beneficial. We developed an effective strategy for the expression of multiple small hairpin RNA simultaneously using multiple RNA polymerase III (hU6, hH1, mU6 and h7SK) promoters in a single vector to knockdown the FUT1 gene. Stable FUT1 knockdown transgenic fibroblast lines were generated by transfecting porcine fetal fibroblasts with the constructed vectors. Real-time RT-PCR indicated that the mRNA level of FUT1 in the transgenic fibroblast lines was significantly lower than that in the control, as much as 29 %. Finally, we successfully obtained transgenic SCNT porcine embryos. Overall, the results demonstrated that this vector-based RNAi expression system is an efficient approach to knockdown FUT1 gene expression in porcine fetal fibroblast cells, which could thereby provide donor cells for somatic cell nuclear cloning and the potential production of a marker-free transgenic pig resistant to F18 related diseases. Furthermore, it also provides strong evidence that this approach could be useful both in the production of transgenic livestock resistant to disease, and in the development of effective strategies for the suppression of gene expression in clinical gene therapy.     

Generation of cloned calves and transgenic chimeric embryos from bovine embryonic stem-like cells

Bovine embryonic stem-like cells (ES-like cells) appear to maintain a normal diploid karyotype indefinitely during culture in vitro and to express marker proteins that are characteristic of ES cells from mice, namely, alkaline phosphatase (AP), stage-specific embryonic antigen-1 (SSEA-1), STAT-3, and Oct 4. After proliferation of undifferentiated ES-like cells in vitro, some bovine ES-like cells differentiated to neural precursor cells, which were cultured in the presence of basic fibroblast growth factor (bFGF), epidermal growth factor (EGF), and platelet-derived growth factor (PDGF). In addition, calves were successfully cloned using ES-like cells and the frequency of term pregnancies for blastocysts derived from ES-like cells was higher than those of early pregnancies and maintained pregnancies after nuclear transplantation (NT) with bovine somatic cells. Successful cloning from bovine ES-like cells should allow the introduction into cattle of specific genetic characteristics of biomedical and/or agricultural importance.