Your search keyword '"interspecies somatic cell nuclear transfer"' showing total 13 results

1. Utilization of oocytes from closely related domestic species for interspecies somatic cell nuclear transfer in gaur embryo production.

Author

Jintana, Ratree, Tasripoo, Kriengsak, Srisakwattana, Kitiya, Suthikrai, Wanvipa, Sophon, Sunpetch, and Tharasanit, Theerawat

Subjects

*SURROGATE mothers, *EMBRYO transfer, *ENDANGERED species, *ANIMAL species, *WILDLIFE conservation, *SOMATIC cell nuclear transfer

Abstract

Context: The limited availability of recipient oocytes poses significant challenges in increasing the population of endangered species. Aims: This study demonstrates the use of oocytes from closely related domestic species (cattle, buffalo, and goat) in the production of gaur embryos via interspecies somatic cell nuclear transfer (iSCNT). The developmental abilities of embryos from various combinations – gaur–bovine, gaur–buffalo, gaur–goat, and others – are analyzed. Previous achievements are retrospectively reviewed and summarized. Methods: The methodologies for iSCNT and in vitro gaur embryo production are outlined. Key results: Blastocyst rates among gaur–bovine, gaur–buffalo, and gaur–goat embryos showed no significant differences (P < 0.05). Gaur–bovine embryo development was comparable to intraspecies embryos (bovine–bovine), indicating successful developmental compatibility. Pregnancy rates after transferring gaur–bovine embryos were reported for the first time, with rates of 4.76%, 42.86%, 19.05% and 4.76% at Days 45, 60, 90 and 120, respectively. Conclusions: Bovine, buffalo, and goat oocyte cytoplasm is effective for producing gaur iSCNT embryos, capable of initiating early pregnancies. Implications: Laboratory techniques and methodologies can save costs and time, contributing to the conservation of endangered species. Bovine, buffalo, and goat oocyte cytoplasm is effective for producing gaur iSCNT embryos, capable of initiating early pregnancies. iSCNT is probably one of the promising reproductive technologies for increasing the gaur. The use of taxonomy closely related animal species applied to methodology and techniques by optimizing culture conditions and procedures across closely related species would greatly benefit laboratory production and field implication (enhancing the chance of probability of surrogate mother), and also saving cost and time, to increase the population size of endangered species. [ABSTRACT FROM AUTHOR]

Published

2025

2. Quantitative analysis of mitochondrial DNA in porcine-mouse cloned embryos

Author

Hyeonyeong Shin, Soyeon Kim, Myungyoun Kim, Jaeeun Lee, and Dongil Jin

Subjects

Interspecies somatic cell nuclear transfer, Mitochondria, Porcine-mouse cloned embryo, Animal culture, SF1-1100

Abstract

The aim of the research is to identify that porcine oocytes can function as recipients for interspecies cloning and have the ability to develop to blastocysts. Furthermore each mitochondrial DNA (mtDNA) in interspecises cloned embryos was analyzed. For the study, mouse-porcine and porcine-porcine cloned embryos were produced with mouse fetal fibroblasts (MFF) and porcine fetal fibroblasts (PFF), respectively, introduced as donor cells into enucleated porcine oocytes. The developmental rate and cell numbers of blastocysts between intraspecies porcine-porcine and interspecies mouse-porcine cloned embryos were compared and real-time polymerase chain reaction (PCR) was performed for the estimate of mouse and porcine mtDNA copy number in mouse-porcine cloned embryos at different stages.There was no significant difference in the developmental rate or total blastocyst number between mouse-porcine cloned embryos and porcine-porcine cloned embryos (11.1 ± 0.9%, 25 ± 3.5 vs. 10.1 ± 1.2%, 24 ± 6.3). In mouse-porcine reconstructed embryos, the copy numbers of mouse somatic cell-derived mtDNA decreased between the 1-cell and blastocyst stages, whereas the copy number of porcine oocyte-derived mtDNA significantly increased during this period, as assessed by real-time PCR analysis. In our real-time PCR analysis, we improved the standard curve construction-based method to analyze the level of mtDNA between mouse donor cells and porcine oocytes using the copy number of mouse beta-actin DNA as a standard. Our findings suggest that mouse-porcine cloned embryos have the ability to develop to blastocysts in vitro and exhibit mitochondrial heteroplasmy from the 1-cell to blastocyst stages and the mouse-derived mitochondria can be gradually replaced with those of the porcine oocyte in the early developmental stages of mouse-porcine cloned embryos.

Published

2023

3. In vitro and in vivo development of interspecies Asian elephant embryos reconstructed with pig enucleated oocytes.

Author

Nguyen, Tien Dat, Li, Honghui, Zhuang, Yiquan, Chen, Bowei, Kinoshita, Keiji, Jamal, Muhammad Ameen, Xu, Kaixiang, Guo, Jianxiong, Jiao, Deling, Tanabe, Kumiko, Wei, Yunfang, Li, Zhuo, Cheng, Wenming, Qing, Yubo, Zhao, Hong-Ye, and Wei, Hong-Jiang

Subjects

*SOMATIC cell nuclear transfer, *ASIATIC elephant, *FETUS, *OVUM, *ENDANGERED species, *EMBRYOS, *ANIMAL rescue

Abstract

Interspecies somatic cell nuclear transfer (iSCNT) has an immense potential to rescue endangered animals and extinct species like mammoths. In this study, we successfully established an Asian elephant's fibroblast cell lines from ear tissues, performed iSCNT with porcine oocytes and evaluated the in vitro and in vivo development of reconstructed embryos. A total of 7780 elephant–pig iSCNT embryos were successfully reconstructed and showed in vitro development with cleavage rate, 4-cell, 8-cell and blastocyst rate of 73.01, 30.48, 5.64, and 4.73%, respectively. The total number of elephant–pig blastocyte cells and diameter of hatched blastocyte was 38.67 and 252.75 μm, respectively. Next, we designed species-specific markers targeting EDNRB, AGRP and TYR genes to verify the genome of reconstructed embryos with donor nucleus/species. The results indicated that 53.2, 60.8, and 60.8% of reconstructed embryos (n = 235) contained elephant genome at 1-cell, 2-cell and 4-cell stages, respectively. However, the percentages decreased to 32.3 and 32.7% at 8-cell and blastocyst stages, respectively. Furthermore, we also evaluated the in vivo development of elephant–pig iSCNT cloned embryos and transferred 2260 reconstructed embryos into two surrogate gilts that successfully became pregnant and a total of 11 (1 and 10) fetuses were surgically recovered after 17 and 19 days of gestation, respectively. The crown-rump length and width of elephant–pig cloned fetuses were smaller than the control group. Unfortunately, none of these fetuses contained elephant genomes, which suggested that elephant embryos failed to develop in vivo. In conclusion, we successfully obtained elephant–pig reconstructed embryos for the first time and these embryos are able to develop to blastocyst, but the in vivo developmental failure needs further investigated. [ABSTRACT FROM AUTHOR]

Published

2023

4. Low Expression of Mitofusin 1 Gene Leads to Mitochondrial Dysfunction and Embryonic Genome Activation Failure in Ovine-Bovine Inter-Species Cloned Embryos.

Author

Wu, Shanshan, Zhao, Xiaoyu, Wu, Meiling, Yang, Lei, Liu, Xuefei, Li, Danyi, Xu, Han, Zhao, Yuefang, Su, Xiaohu, Wei, Zhuying, Bai, Chunling, Su, Guanghua, and Li, Guangpeng

Subjects

*SOMATIC cell nuclear transfer, *RIBOSOMES, *MITOCHONDRIAL DNA, *EMBRYOLOGY, *MOLECULAR cloning, *EMBRYOS, *MITOCHONDRIA

Abstract

Inter-species somatic cell nuclear transfer (iSCNT) is significant in the study of biological problems such as embryonic genome activation and the mitochondrial function of embryos. Here, we used iSCNT as a model to determine whether abnormal embryo genome activation was caused by mitochondrial dysfunction. First, we found the ovine-bovine iSCNT embryos were developmentally blocked at the 8-cell stage. The reactive oxygen species level, mitochondrial membrane potential, and ATP level in ovine-bovine cloned embryos were significantly different from both bovine-bovine and IVF 8-cell stage embryos. RNA sequencing and q-PCR analysis revealed that mitochondrial transport, mitochondrial translational initiation, mitochondrial large ribosomal subunit, and mitochondrial outer membrane genes were abnormally expressed in the ovine-bovine embryos, and the mitochondrial outer membrane and mitochondrial ribosome large subunit genes, mitochondrial fusion gene 1, and ATPase Na+/K+ transporting subunit beta 3 gene were expressed at lower levels in the ovine-bovine cloned embryos. Furthermore, we found that overexpression and knockdown of Mfn1 significantly affected mitochondrial fusion and subsequent biological functions such as production of ATP, mitochondrial membrane potential, reactive oxygen species and gene expressions in cloned embryos. These findings enhance our understanding of the mechanism by which the Mfn1 gene regulates embryonic development and embryonic genome activation events. [ABSTRACT FROM AUTHOR]

Published

2022

5. Developmental competence of interspecies cloned embryos produced using cells from large Japanese field mice (Apodemus speciosus) and oocytes from laboratory mice (Mus musculus domesticus)

Author

Rika AZUMA, Yuki HATANAKA, Seung-Wook SHIN, Hitoshi MURAI, Minoru MIYASHITA, Masayuki ANZAI, and Kazuya MATSUMOTO

Subjects

epigenetics, genetic resource, interspecies somatic cell nuclear transfer, large japanese field mouse, reprogramming, Reproduction, QH471-489, Internal medicine, RC31-1245

Abstract

The large Japanese field mouse (Apodemus speciosus) is endemic to Japan and may be used as an animal model for studies related to environmental pollution, medical science, and basic biology. However, the large Japanese field mouse has low reproductive ability due to the small number of oocytes ovulated per female. To produce experimental models, we investigated the in vitro developmental potential of interspecies somatic cell nuclear transfer (iSCNT) embryos produced by fusing tail tip cells from the large Japanese field mouse with enucleated oocytes from laboratory mice (Mus musculus domesticus). Only a small number of iSCNT embryos developed to the 4-cell (0–4%) and blastocysts (0–1%) stages under sequential treatment using trichostatin A (TSA) and vitamin C (VC) supplemented with deionized bovine serum albumin (d-BSA). This sequential treatment led to the reduction in H3K9 trimethylation and did not affect H3K4 trimethylation in at least the 2-cell stage of the iSCNT embryos. Moreover, iSCNT embryos that received tail tip cells with exposure treatment to ooplasm from cell fusion to oocyte activation or VC treatment prior to cell fusion did not exhibit significant in vitro development improvement compared to that of each control group. This suggests that large Japanese field mice/laboratory mice iSCNT embryos that received sequential treatment using TSA and VC with d-BSA may have slightly better developmental potential beyond the 4-cell stage. Our results provide insights into the reprogramming barriers impeding the wider implementation of iSCNT technology.

Published

2020

6. Mitochondrial metabolism assessment of lycaon-dog fetuses in interspecies somatic cell nuclear transfer.

Author

Son, Young-Bum, Jeong, Yeon Ik, Hwang, Kyu Chan, Jeong, Yeon Woo, and Hwang, Woo Suk

Subjects

*MITOCHONDRIAL DNA, *SOMATIC cell nuclear transfer, *METABOLISM, *NUCLEAR DNA, *MITOCHONDRIA, *FETUS

Abstract

Many studies have reported that interspecies somatic cell nuclear transfer (iSCNT) is considered the prominent method in preserving endangered animals. However, the development rate of iSCNT embryos is low, and there are limited studies on the molecular mechanism of the iSCNT process. This study evaluated the developmental potential of interspecies lycaon (Lycaon pictus)-dog embryos and assessed the mitochondrial content and metabolism of the produced cloned lycaon-dog fetus. Of 678 collected oocytes, 516 were subjected to nuclear transfer, and 419 reconstructed embryos with male lycaon fibroblasts were transferred into 27 surrogates. Of 720 oocytes, 568 were subjected to nuclear transfer and 469 reconstructed embryos with female lycaon fibroblasts were transferred into 31 surrogates. Two recipients who received female reconstructed embryos were identified as pregnant at 30 days. However, fetal retardation with no cardiac activity was observed at 46 days. Microsatellite analysis confirmed that the cloned lycaon-dog fetus was genetically identical to the lycaon donor cell, whereas mitochondrial sequencing analysis revealed that oocyte donor dogs transmitted their mtDNA. We assessed the oxygen consumption rate and mitochondrial content of the aborted lycaon-dog fetus to shed some light on the aborted fetus's cellular metabolism. The oxygen consumption rates in the lycaon-dog fetal fibroblasts were lower than those in adult dog, lycaon and cloned dog fetal fibroblasts. Furthermore, lycaon-dog fetal fibroblasts showed decreased proportions of live and active mitochondria compared with other groups. Overall, we hypothesized that nuclear-mitochondrial incompatibility affects pyruvate metabolism and that these processes cause intrauterine fetal death. • Lycaon embryos constructed with dog oocytes can implant in to the dog uterus. • Cloned lycaon-dog fetuses revealed lycaon nuclear DNA and heterogeneous mtDNA but, dominant dog mtDNA. • The OCR of lycaon fetal fibroblast was decreased compared to adult dog, lycaon and cloned dog fetal fibroblast. [ABSTRACT FROM AUTHOR]

Published

2021

7. The perspective of the incompatible of nucleus and mitochondria in interspecies somatic cell nuclear transfer for endangered species.

Author

Mrowiec, Patrycja, Bugno‐Poniewierska, Monika, and Młodawska, Wiesława

Subjects

*SOMATIC cell nuclear transfer, *MITOCHONDRIAL DNA, *ENDANGERED species, *ANIMAL diversity, *CELL nuclei, *NATURE conservation, *OVUM

Abstract

Taking into account the latest Red List of the International Union for Conservation of Nature in which 25% of all mammals are threatened with extinction, somatic cell nuclear transfer (SCNT) could be a beneficial tool and holds a lot of potential for aiding the conservation of endangered, exotic or even extinct animal species if somatic cells of such animals are available. In the case of shortage and sparse amount of wild animal oocytes, interspecies somatic cell nuclear transfer (iSCNT), where the recipient ooplasm and donor nucleus are derived from different species, is the alternative SCNT technique. The successful application of iSCNT, resulting in the production of live offspring, was confirmed in several combination of closely related species. When nucleus donor cells and recipient oocytes have been used in many other combinations, very often with a very distant taxonomical relation iSCNT resulted only in the very early stages of cloned embryo development. Problems encountered during iSCNT related to mitochondrial DNA (mtDNA)/genomic DNA incompatibility, mtDNA heteroplasmy, embryonic genome activation of the donor nucleus by the recipient oocyte and availability of suitable foster mothers for iSCNT embryos. Implementing assisted reproductive technologies, including iSCNT, to conservation programmes also raises concerns that the production of genetically identical populations might cause problems with inbreeding. The article aims at presenting achievements, limitations and perspectives of iSCNT in maintaining animal biodiversity. [ABSTRACT FROM AUTHOR]

Published

2021

8. Effect of epigenetic modification with trichostatin A and S-adenosylhomocysteine on developmental competence and POU5F1–EGFP expression of interspecies cloned embryos in dog.

Author

Mousai, M., Hosseini, S.M., Hajian, M., Jafarpour, F., Asgari, V., Forouzanfar, M., and Nasr-Esfahani, M.H.

Abstract

Adult canine fibroblasts stably transfected with either cytomegalovirus (CMV) or POU5F1 promoter-driven enhanced green fluorescent protein (EGFP) were used to investigate if pre-treatment of these donor cells with two epigenetic drugs [trichostatin A (TSA), or S-adenosylhomocysteine (SAH)] can improve the efficiency of interspecies somatic cell nuclear transfer (iSCNT). Fluorescence-activated cell sorting (FACS), analyses revealed that TSA, but not SAH, treatment of both transgenic and non-transgenic fibroblasts significantly increased acetylation levels compared with untreated relatives. The expression levels of Bcl2 and P53 were significantly affected in TSA-treated cells compared with untreated cells, whereas SAH treatment had no significant effect on cell apoptosis. Irrespective of epigenetic modification, dog/bovine iSCNT embryos had overall similar rates of cleavage and development to 8–16-cell and morula stages in non-transgenic groups. For transgenic reconstructed embryos, however, TSA and SAH could significantly improve development to 8–16-cell and morula stages compared with control. Even though, irrespective of cell transgenesis and epigenetic modification, none of the iSCNT embryos developed to the blastocyst stage. The iSCNT embryos carrying CMV–EGFP expressed EGFP at all developmental stages (2-cell, 4-cell, 8–16-cell, and morula) without mosaicism, while no POU5F1–EGFP signal was observed in any stage of developing iSCNT embryos irrespective of TSA/SAH epigenetic modifications. These results indicated that bovine oocytes partially remodel canine fibroblasts and that TSA and SAH have marginal beneficial effects on this process. [ABSTRACT FROM PUBLISHER]

Published

2015

9. Blastocysts derived from adult fibroblasts of a rhesus monkey (Macaca mulatta) using interspecies somatic cell nuclear transfer.

Author

Kwon, Dae Kee, Kang, Jung Taek, Park, Sol Ji, Gomez, Ma Ninia Limas, Kim, Su Jin, Atikuzzaman, Mohammad, Koo, Ok Jae, Jang, Goo, and Lee, Byeong Chun

Subjects

BLASTOCYST, FIBROBLASTS, RHESUS monkeys, SOMATIC cells, TRANSPLANTATION of cell nuclei, EMBRYOS, ANIMAL species, MITOCHONDRIAL DNA

Abstract

In non-human primates, it is difficult to collect sufficient numbers of oocytes for producing identical embryos by somatic cell nuclear transfer (SCNT). Because of this factor, inter-species SCNT (iSCNT) using heterospecific oocytes is an attractive alternative approach. The objective of this study was to produce iSCNT-derived blastocysts using enucleated cow (Bos taurus) metaphase II oocytes and adult rhesus monkey (Macaca mulatta) fibroblasts. Ear skin tissue from a 6-year-old male rhesus monkey was collected by biopsy and fibroblasts were isolated. Immature cumulus–oocyte complexes from cow ovaries were collected and matured in vitro in Medium 199. The enucleated oocytes were reconstructed with rhesus monkey fibroblasts and iSCNT embryos were cultured in modified synthetic oviduct fluid in an atmosphere of 5–5.5% CO2 under various conditions (37–39 °C and 5–20% O2) to examine the effects of in vitro culture conditions. Most embryos were arrested at the 8- or 16-cell stage and only three blastocysts were derived in this way using iSCNT from a total of 1153 cultured activated embryos (0.26% production rate). Two of the three blastocysts were used for counting nuclear numbers using bisbenzimide staining, which were 51 and 24. The other iSCNT-derived blastocyst was used to analyse mitochondrial DNA (mtDNA) by PCR, and both rhesus monkey and cow mtDNA were detected. Although the development rate was extremely low, this study established that iSCNT using two phylogenetically distant species, including a primate, could produce blastocysts. With improvements in the development rate, it may be possible to produce rhesus monkey iSCNT-derived embryonic stem cell lines for studies on primate nucleus and cow mitochondria interaction mechanisms. [ABSTRACT FROM AUTHOR]

Published

2011

10. Production of cloned sei whale (Balaenoptera borealis) embryos by interspecies somatic cell nuclear transfer using enucleated pig oocytes.

Author

Eunsong Lee, Bhuiyan, Mohammad Musharraf Uddin, Watanabe, Hiroyuki, Matsuoka, Kohji, Fujise, Yoshihiro, Ishikawa, Hajime, and Fukui, Yutaka

Subjects

SEI whale, WHALES, SOMATIC cells, FEASIBILITY studies, EMBRYOLOGY, TRANSPLANTATION of organs, tissues, etc.

Abstract

In this study, we examined the feasibility of using subzonal cell injection with electrofusion for interspecies somatic cell nuclear transfer (iSCNT) to produce sei whale embryos and to improve their developmental capacity by investigating the effect of osmolarity and macromolecules in the culture medium on the in vitro developmental capacity. Hybrid embryos produced by the electrofusion of fetal whale fibroblasts with enucleated porcine oocytes were cultured in modified porcine zygote medium-3 to examine the effects of osmolarity and fetal serum on their in vitro developmental capacity. More than 66% of the whale somatic cells successfully fused with the porcine oocytes following electrofusion. A portion (60∼81%) of the 1SCNT whale embryos developed to the two- to four-cell stages, but no embryos were able to reach the blastocyst stage. This developmental arrest was not overcome by increasing the osmolarity of the medium to 360 mOsm or by the addition of fetal bovine or fetal whale serum. Our results demonstrate that sei whale-porcine hybrid embryos may be produced by SCNT using subzonal injection and electrofusion. The pig oocytes partly supported the remodeling and reprogramming of the sei whale somatic cell nuclei, but they were unable to support the development of iSCNT whale embryos to the blastocyst stage. [ABSTRACT FROM AUTHOR]

Published

2009

11. Blastocyst formation, karyotype, and mitochondrial DNA of interspecies embryos derived from nuclear transfer of human cord fibroblasts into enucleated bovine oocytes

Author

Chang, Kyung H., Lim, Jeong M., Kang, Sung K., Lee, Byeong C., Moon, Shin Y., and Hwang, Woo S.

Subjects

*SOMATIC cells, *BLASTOCYST, *HUMAN chromosomes, *MITOCHONDRIA, *OVUM physiology, *ANIMALS, *CATTLE, *CELL nuclei, *DNA, *DNA probes, *CORD blood, *FIBROBLASTS, *GENE mapping, *HUMAN reproductive technology, *KARYOTYPES, *NUCLEOTIDES

Abstract

: ObjectiveTo establish an interspecies somatic cell nuclear transfer (iSCNT) technique for deriving blastocysts having human chromosome complements without sacrificing human oocytes.: DesignProspective, randomized study undertaken in vitro.: SettingUniversity-affiliated hospital and laboratory, Seoul National University.: Patient(s)Postpartum women with natural spontaneous vaginal delivery.: Intervention(s)Human cord fibroblasts were retrieved from five postpartum women from whom informed consent was obtained. After subculture and cryopreservation, serum-starved cells were transferred into enucleated bovine oocytes.: Main outcome measure(s)Embryo development, karyotype, and the presence of mitochondrial DNA (mtDNA).: Result(s)A total 1,742 oocytes were provided for iSCNT and results showed that both fibroblast batch and reconstruction method significantly affected iSCNT outcome. An iSCNT using a single DC pulse of 1.9–2.1 kV/cm for 20 microseconds yielded better rates of fusion (30%–56%) and cleavage (36%) than the other iSCNT protocols. Four to 9% interspecies embryos produced with the optimized method developed to morulae or blastocysts after cultured in a serum-free medium. Results from karyotyping demonstrated that 56% of interspecies embryos evaluated had human chromosome complements. In polymerase chain reaction (PCR) analysis of a single embryo, both human and bovine mtDNAs were detected until the 16-cell stage, whereas only the bovine mtDNA was found beyond the morula stage.: Conclusion(s)An iSCNT using human cord fibroblasts and bovine oocytes can yield blastocysts and the results of karyotyping and mtDNA analysis confirmed the feasibility of the iSCNT technique. [Copyright &y& Elsevier]

Published

2003

12. Production of cloned sei whale (Balaenoptera borealis) embryos by interspecies somatic cell nuclear transfer using enucleated pig oocytes

Author

Kohji Matsuoka, Yoshihiro Fujise, Yutaka Fukui, Hajime Ishikawa, Eunsong Lee, M. M. U. Bhuiyan, and Hiroyuki Watanabe

Subjects

Nuclear Transfer Techniques, Swine, Somatic cell, Cloning, Organism, Electrofusion, Andrology, biology.animal, medicine, Animals, Blastocyst, Genetics, pig oocyte, Zygote, General Veterinary, biology, Whale, Embryogenesis, Whales, embryo development, Embryo, Embryo, Mammalian, Culture Media, medicine.anatomical_structure, Karyotyping, embryonic structures, Oocytes, sei whale, Somatic cell nuclear transfer, Original Article, interspecies somatic cell nuclear transfer

Abstract

In this study, we examined the feasibility of using subzonal cell injection with electrofusion for interspecies somatic cell nuclear transfer (iSCNT) to produce sei whale embryos and to improve their developmental capacity by investigating the effect of osmolarity and macromolecules in the culture medium on the in vitro developmental capacity. Hybrid embryos produced by the electrofusion of fetal whale fibroblasts with enucleated porcine oocytes were cultured in modified porcine zygote medium-3 to examine the effects of osmolarity and fetal serum on their in vitro developmental capacity. More than 66% of the whale somatic cells successfully fused with the porcine oocytes following electrofusion. A portion (60 approximately 81%) of the iSCNT whale embryos developed to the two- to four-cell stages, but no embryos were able to reach the blastocyst stage. This developmental arrest was not overcome by increasing the osmolarity of the medium to 360 mOsm or by the addition of fetal bovine or fetal whale serum. Our results demonstrate that sei whale-porcine hybrid embryos may be produced by SCNT using subzonal injection and electrofusion. The pig oocytes partly supported the remodeling and reprogramming of the sei whale somatic cell nuclei, but they were unable to support the development of iSCNT whale embryos to the blastocyst stage.

Published

2009

13. Fibroblast cell line establishment, cryopreservation and interspecies embryos reconstruction in red panda ( Ailurus fulgens).

Author

Yong Tao, Jianming Liu, Yunhai Zhang, Meiling Zhang, Junshun Fang, Wei Han, Zhizhong Zhang, Ya Liu, Jianping Ding, and Xiaorong Zhang

Subjects

RED panda, FIBROBLASTS, CELL lines, PHYLOGENY, SOMATIC cells, TRANSPLANTATION of cell nuclei, BIOLOGICAL evolution, BIOLOGY

Abstract

In evolution, the red panda (Ailurus fulgens) plays a pivotal role in the higher level phylogeny of arctoides carnivore mammals. The red panda inhabits certain Asian countries only and its numbers are decreasing. Therefore, the development of feasible ways to preserve this species is necessary. Genetic resource cryopreservation and somatic cell nuclear transfer (SCNT) have been used extensively to rescue this endangered species. The present study describes the establishment, for the first time, of a red panda ear fibroblast cell line, which was then cryopreserved, thawed and cultured. Through micromanipulation, interspecies embryos were reconstructed using the cryopreserved-thawed fibroblasts of the red panda as the donor and rabbit oocytes as recipients. A total of 194 enucleated rabbit oocytes were reconstructed with red panda ear fibroblasts; enucleated oocytes were activated without fusion as the control. The results show that the fibroblast cell line was established successfully by tissue culture and then cryopreserved in liquid nitrogen. Supplementation with 20% fetal bovine serum and 8% dimethyl sulphoxide in basic medium facilitated the cryopreservation. The interspecies embryos were successfully reconstructed. The cleavage, morulae and blastocyst rates after in vitro culture were 71, 47 and 23% (31/194), respectively. This study indicated that a somatic cell line could be established and cryopreserved from red panda and that rabbit cytoplast supports mitotic cleavage of the red panda karyoplasts and is capable of reprogramming the nucleus to achieve blastocysts. [ABSTRACT FROM AUTHOR]

Published

2009