A novel culture system for mouse spermatid maturation which produces elongating spermatids capable of inducing calcium oscillation during fertilization and embryonic development.

PURPOSE: To establish an in vitro culture system for mouse round spermatids that models spermiogenesis and enables the assessment of oocyte activation ability. METHODS: Round spermatids and Sertoli cells were isolated from testicular tissues of B6D2F1 male mice and co-cultured in the presence of testosterone and recombinant FSH. Cultured spermatids were examined for morphology and condensation of nuclei, fertilization and development rate, and Ca²(+) oscillation pattern after ICSI. RESULTS: The cultured spermatids elongated and resembled normal elongating spermatids in terms of both morphology and nuclear condensation. No significant differences in fertilization and development rates were observed between fresh and cultured elongating spermatids. Moreover, cultured spermatids showed similar Ca²(+) oscillation patterns to fresh elongating spermatids during an initial stage in oocyte activation. CONCLUSIONS: These data suggest that a co-culture system of spermatids and Sertoli cells, supplemented with testosterone and recombinant FSH, supports normal differentiation of round spermatids into elongating spermatids, as assessed by their morphology, nuclear condensation, and oocyte activation ability.

Induced in vitro differentiation of pancreatic-like cells from human amnion-derived fibroblast-like cells.

There is growing evidence that the human amnion contains various types of stem cells. As amniotic tissue is readily available, it has the potential to be an important source of material for regenerative medicine. In the present study, we evaluated the potential of human amnion-derived fibroblast-like (HADFIL) cells to differentiate into pancreatic islet cells. Two HADFIL cell populations, derived from two different neonates, were analyzed. The expression of pancreatic cell-specific genes was examined before and after in vitro induction of cellular differentiation. We found that Pdx-1, Isl-1, Pax-4, and Pax-6 showed significantly increased expression following the induction of differentiation. In addition, immunostaining demonstrated that insulin, glucagon, and somatostatin were present in HADFIL cells following the induction of differentiation. These results indicate that HADFIL cell populations have the potential to differentiate into pancreatic islet cells. Although further studies are necessary to determine whether such in vitro-differentiated cells can function in vivo as pancreatic islet cells, these amniotic cell populations might be of value in therapeutic applications that require human pancreatic islet cells.

Ovarian toxicity of paclitaxel and effect on fertility in the rat.

AIM: Taxanes are regarded as key chemotherapy agents for breast cancer and gynecologic malignancies; therefore the ovarian toxicity of paclitaxel (PTX) is a matter of importance to younger women with malignancies. We examined the ovarian toxicity of PTX and its influence on fertility in rats. METHODS: Female Wistar rats aged 6-8 weeks received five doses of PTX at 3-day intervals. Ovarian toxicity was assessed by counting follicles, corpora lutea and atretic follicles, as well as by detecting apoptosis and measuring serum levels of estradiol (E2) and progesterone (P4). Fertility was assessed by mating females immediately or 24 days after PTX treatment. The number of fetuses, implantations and resorption sites was counted in each group. RESULTS: Exposure to PTX caused a decrease of antral follicles, but not primordial or pre-antral follicles. The number of corpora lutea showed a significant decrease, while follicular atresia was increased significantly. Apoptosis was only detected in antral follicles. Serum E2 levels were lower than in control rats, but not significantly, while P4 levels did not differ from those in control rats. Rats mated immediately after PTX treatment showed a significant decrease of fetuses and implantations, but these effects were not detected in rats mated at 24 days after treatment. CONCLUSION: Our findings suggest that the ovarian toxicity of PTX is mild and transient. Use of PTX may help to maintain the fertility of younger women because the fertility of rats was not influenced at 24 days after exposure to this drug.

Effects of in vitro culture of mouse fetal gonads on subsequent ovarian development in vivo and oocyte maturation in vitro.

Under organ culture, female fetal gonads in mice cannot develop beyond the preantral follicle stage unless the follicles are individually isolated and cultured again. In this study, we investigated the effect of in vitro culture of female fetal gonads before transplantation on subsequent in vivo development. The gonads derived from female fetuses 12.5 days postcoitum were organ-cultured for 0, 7 and 14 days, and then were grafted underneath the kidney capsules of severe combined immunodeficient mice and recovered at 21, 14 and 7 days post-transplantation, respectively. The histological analysis of the grafts showed that the in vitro culture of the fetal gonads restricted follicular development to the antral follicle stage post-transplantation. In the grafts cultured for 14 days, particularly, no antral follicle was observed. However, the oocytes in these follicles had grown to around 65 microm in diameter and had competence to resume meiosis in vitro. When the fetal gonads were grafted after culture for 7 and 14 days, 13.0% and 6.8% of the oocytes progressed to the metaphase II stage, respectively. These data showed significant differences (P < 0.05) in comparison with the control group (25.3%). Our results indicate that the in vitro culture of female fetal gonads before transplantation affects the subsequent in vivo development of both follicular cells and oocytes, and in vitro oocyte maturation. However, this effect seems to be more severe in terms of follicular development when compared with oocyte growth and maturation.

Mitochondrial behavior and localization in reconstituted oocytes derived from germinal vesicle transfer.

We investigated the mitochondrial behavior, localization and heteroplasmy in reconstituted oocytes derived from germinal vesicle (GV) transfers. The karyoplast containing the GV nucleus and the ooplast (enucleated oocyte) were prepared from GV oocytes derived from B6D2F1 mice. Mitochondria in the karyoplast and ooplast were labeled with MitoRed (Dojindo Laboratories, Kummoto, Japan) and MitoTracker Green (Molecular Probes, Eugene, OR, USA), respectively. After labeling the mitochondria, the karyoplast and ooplast were paired and fused. The mitochondrial behavior in fused (reconstituted) oocytes during in vitro maturation and preimplantation development were observed using confocal laser-scanning microscopy. In reconstituted oocytes that had reached to the M-II stage, mitochondria localized and concentrated in the hemispherical area of oocytes containing the M-II spindle. We showed that the two types of mitochondria derived from the GV donor and the recipient in reconstituted oocytes exhibit similar behavior to the normal oocyte during meiosis, and that the mitochondrial heteroplasmy of these oocytes did not influence their in vitro maturation and preimplantation development.

Establishment and characterization of EB virus-free normal B-lymphocyte and interleukin-6-producing poorly differentiated adenocarcinoma cell lines derived from gastric tumor tissue.

We successfully established two cell lines, an adenocarcinoma cell line (designated as HIGS) and Epstein-Barr virus-free normal B-lymphocyte cell line (designated as HIGS-BL), derived from a moderately to poorly differentiated adenocarcinoma of the stomach, and examined their characteristics. The tumor delivered to our laboratory from an operating room was cut into small pieces and cultured on the dishes. HIGS and HIGS-BL were established from each individual dish after the onset of primary culture. Although their culture methods were the same, the HIGS cell line was not established from the dishes growing HIGS-BL cells. In addition, HIGS-BL cells were scarcely observed in the HIGS cell dishes. Because of these factors, we have considered until now that HIGS-BL cells may inhibit the growth of HIGS cells or cause damage to HIGS cells by unknown mechanisms. Injection of HIGS-BL cells, other B-lymphocyte cell lines, or the conditioned media of HIGS-BL cells into nude mice bearing HIGS-grafted tumors was performed individually. When HIGS and HIGS-BL cells were co-cultured in the same dishes, HIGS-BL cells inhibited the proliferation of HIGS cells. The inhibition of grafted tumor growth was confirmed by the injection of not only the HIGS-BL cells but also the B-lymphocytes. Furthermore, this inhibition was only observed when the conditioned medium of B-lymphocytes was injected into the nude mice. These results suggested that the secretory products by general B-lymphocytes (including HIGS-BL) have some ability to inhibit the proliferation of HIGS cells. In addition, susceptibility tests to anti-cancer drugs suggested that HIGS cells were sensitive to CDDP, ADM and MMC, and HIGS-BL cells were sensitive to CDDP. If CDDP was used for chemotherapy in the patient, the drug produced atrophy of HIGS-BL cells. The study about HIGS and HIGS-BL cells reported the necessity for novel therapeutic approaches in oncotherapy.

In vitro follicular development of cryopreserved mouse ovarian tissue.

In a previous report, we showed that follicles isolated from frozen/thawed mouse ovarian tissues reached the mature follicle stage on the 12th day of culture. However, the developmental ability was lower than that of fresh ovarian tissue. The purpose of this study was to define a culture system with some technical modification for preantral follicles isolated from frozen/thawed ovarian tissue and to confirm cell injury. Ovaries obtained from three-week-old female mice were cryopreserved by the rapid freezing method. Preantral follicles isolated from frozen/thawed ovarian tissues were cultured for 12-16 days. The follicles were then stimulated with human chorionic gonadotropin. In vitro fertilization was performed on the released cumulus-oocyte complexes (COCs). Preantral follicle viability was assessed by supravital staining using Hoechst 33258. Using this stain cell death was found in part of the granulosa cells of a follicle obtained from frozen/thawed ovarian tissue. On the 14th and 16th days of culture, the diameters of follicles isolated from frozen/thawed ovaries were larger than on the 12th day of culture. The released COCs were fertilized and developed to the blastocyst stage in 15.8% (12/76) of the oocytes taken from the fresh group, and in 0% (0/73), 2.9% (2/69) and 19.1% (22/115) of the oocytes taken from the frozen/thawed group that had been cultured for 12, 14 and 16 days respectively. The preantral follicles isolated from frozen/thawed mouse ovarian tissues developed slowly compared with the freshly prepared preantral follicles. During prolonged culture from 12 to 16 days, these follicles obtained the potential to fertilize and develop to the blastocyst stage.

Optimum dose of LH-RH analogue Fertirelin Acetate for the induction of superovulation in mice.

The optimum dose for establishing superovulation in mice of Fertirelin Acetate (FA), an LH-RH analogue, was examined. Mice were subcutaneously injected with 5 IU of hCG at 17:00 (Day 0), and with various doses of FA (0.001 to 1.0 microg) five times at 4 h intervals on and after 22:00 on Day 0. To induce ovulation, 5 IU of hCG was again injected subcutaneously at 17:00 on Day 2. In the groups administered with doses ranging from 0.01 to 0.5 microg of FA, the number of ovulated eggs was significantly (p<0.05) larger than in the control group (12.9 +/- 5.9). The greatest number of ovulated eggs (22.6 +/- 7.3) was obtained in the group administered with 0.025 microg of FA. The results indicate that the effective dose of LH-RH analogue, FA, is between 0.1 and 0.5 microg for superovulation induction in mice.

Development of reconstituted embryos derived from somatic cell nuclei in the rabbit.

Production of cloned laboratory animals is helpful in the establishment of medical models. In this study, we examined to produce reconstituted embryos derived from somatic cell nuclei, and to establish embryonic stem (ES) cell lines from the embryo in rabbits. Metaphase II (M-II) oocytes from superovulated rabbit were used as nuclear recipients. Nuclear donor cells were fibroblasts collected from a Dutch Beleted rabbit. The M-II chromosome and the 1st polar body were aspirated, and a fibroblast was inserted into the perivitelline space of the enucleated oocyte. The pairs were electrofused for cell membrane fusion using a cell fusion apparatus, and reconstituted embryos were produced. The embryos were activated and cultured in modified HTF medium and DMEM. The embryos developed to the blastocyst stage were removed their zona pellucida, and they were cultured on the feeder cell layer. As a result of having observed development of reconstituted embryos, 21.2% of the embryos were developed to the blastocyst stage. In the embryos cultured on the feeder cells, the adhesion on feeder cells was observed. We obtained inner cell mass (ICM) colony derived from reconstituted embryos. At present, we are investigating to establish the ES cell lines derived from the embryos reconstituted by nuclear transfer.

Establishment and characterization of a nerve cell line (NC-HIMT) from HIMT cells derived from a human ovarian immature teratoma with special reference to the induction of neuron differentiation by retinoic acid.

A nerve cell line designated NC-HIMT was established from a HIMT cell line derived from a benign ovarian, three germ layer immature teratoma removed from a 21-year-old Japanese female. The HIMT cells were elongated, ellipsoid or spherical in shape, whose karyotype was on the high side of normal diploidy. Small amounts of retinoic acid enhanced differentiation and maturation of the HIMT cells into nervous tissue, and the NC-HIMT cell line was established by the colony isolating technique when the HIMT cell line was cultured in the presence of retinoic acid-supplemented medium. After establishment, the NC-HIMT cell line was cultured and maintained in retinoic acid-free growth medium. Even though these cells were cultured without retinoic acid, the phenotype of nerve cells remained and the cells were also maintained in a state of high normal diploidy. The nerve cells contacted each other with their long cell projections and formed networks. Immunocytochemical observations using anti-bovine NSE, alpha-internexin, neurofilament 200kD, peripherin and GFAP confirmed that the cells were either nerve cells or glia cells. These results assume that HIMT cells, which were derived from an immature teratoma, have progenitor and/or stem cells which can differentiate into nerve and/or glial cells.

Developmental and ultrastructual characteristics of mouse oocytes grown in vitro from primordial germ cells.

The aim of this study was to clarify the developmental and ultrastructual characteristics of oocytes grown in vitro from primordial germ cells. The female genital ridges at 12.5 days post coitus were cultured for 18 days on an insert membrane in Waymouth's MB752/1 medium, supplemented with 15% fetal bovine serum and 1 mM sodium pyruvate; subsequently, the follicles isolated from the tissue were cultured for eight days in Waymouth's medium supplemented with 5 microg/ml insulin, 5 microg/ml transferrin, 5 ng/ml selenium, 10 mIU/ml follicle stimulating hormone, and 100 ng/ml stem cell factor. The primordial germ cells developed in vitro into oocytes of more than 60 microm in diameter. The transmission electron microscopic analysis indicated that the oocytes, which developed in vitro, showed no obvious abnormality in their ultrastructure and had organelles appropriate for the oocyte size. However, a delay in the progressive changes of morphology in some of the organelles during oocyte growth was often found when comparing them to oocytes grown in vivo.

Glucose intolerance and hyperlipidemia prior to diabetes onset in female Spontaneously Diabetic Torii (SDT) rats.

The Spontaneously Diabetic Torii (SDT) rat, a newly established animal model for diabetes mellitus, presents nonobese type 2 diabetes with ocular complications. In the present study, oral glucose tolerance tests and biochemical and histopathological examinations were performed in female SDT rats at 16 and/or 25 weeks of age, before the onset of diabetes. At 25 weeks of age, glucose tolerance was significantly impaired, and plasma immunoreactive insulin levels at 120 min after glucose loading were significantly higher (P < 0.05). Body weight and fasting levels of plasma triglycerides and nonesterified fatty acids were significantly higher than those in control animals. Histopathologically, inflammatory cell infiltration and fibrosis were observed in and around the pancreatic islets. These results strongly suggest that female SDT rats are useful as a model to investigate impairment of glucose tolerance and hyperlipidemia prior to the onset of diabetes.

Appearance of the oocyte activation of mouse round spermatids cultured in vitro.

This study was undertaken to determine the expression time of fertilization and oocytes activation abilities of spermatids in the mouse. When elongating or elongated spermatids isolated from fresh testes of adult males (B6D2F1) were injected into mature mouse oocytes, both spermatids could activate the mature oocytes and occur fertilization. On the one hand, the round spermatids could not activate mature oocytes, when microinjected into oocytes. In some experiments, recovered round spermatids were cultured under co-culture systems using Sertoli cells as a feeder cell. Under the co-culture system, developed elongating spermatids could stimulate and fertilized mature oocytes. These results indicate that the start of oocyte activation appearance is between the stage of round spermatid and elongating spermatids and the activation ability increases with the advance of spermiogensis. On the other hand, round spermatids isolated from males of ICR strain mouse already have the oocyte activation ability and the fertilizing ability. The result obtained suggests that the expression time of the oocyte activating ability is difficult between the mouse strain.

Establishment and characterization of a human ovarian small cell carcinoma, hypercalcemic type, cell line (OS-1) secreting PTH, PthrP and ACTH--special reference to the susceptibility of anti-cancer drugs.

We successfully established a novel cell line (OS-1) derived from human ovarian small cell carcinoma, hypercalcemic type secreted PTH, PTH-rP and ACTH. The OS-1 cell line was established from metastatic focus of uterus. A patient was 25-year-old Japanese woman. The first she received left ovariectomy on April 2002. The histopathological diagnosis was ovarian small cell carcinoma, pT2c, Nx, Mx. Then on June 2003, metastatic focus of uterus was ectomied. A part of the recurrent tumor of uterus was cut into small pieces with razor blades, and dissociated with 0.1% trypsin-0.02% EDTA/ PBS(-) solution at room temperature. The single cells and small cell clusters were seeded into 60mm dishes and cultured in growth medium (GM: DMEM/F12 supplemented with 20% fetal bovine serum and 0.1% non-essential amino acids solution) at 37 degrees C, 4.7% CO2 in humidified air. Medium was exchanged twice a week. The OS-1 cells grew as floating cultures in the dishes. Radioimmunoassay of the conditioned media was revealed that the cultures secreted large amount of PTH, PTHrP and ACTH simultaneously. Susceptibilities of anti-cancer drugs to the OS-1 cells were examined using oxygen electrode meter (Daikin), and the results suggested VLB and TXL were effective, and CDDP, CPT-11, VP-16, VCR, CPA, MMC and CBDCA were not effective. In our knowledge, it is the first report that the cell line secreting PTH, PTHrP and ACTH was successfully established from ovarian small cell carcinoma, hypercalcemic type. We expect that OS-1 cell line contribute to study on the mechanism of ectopic hormone secretion and susceptibility of anti cancer drugs to the small cell carcinoma.

Change of the mitochondrial distribution in mouse ooplasm during in vitro maturation.

Mitochondria (mt) have been reported to be closely related to the maturation of mammalian oocytes, but their function in oocyte maturation has not been elucidated. In this study, we examined the kinetics of mt and chromatin configuration during in vitro maturation of mouse oocytes to clarify the relationship between oocyte maturation and mitochondrial distribution morphologically. Oocytes were recovered from 6-to 8-wk-old ICR strain female mice. Germinal vesicle (GV) -stage oocytes were divided into 4 groups and cultured: group A, oocytes collected after pregnant mare serum gonadotropin (PMSG) injection; and group B, oocytes collected after PMSG-human chorionic gonadotropin injection. Groups A and B were subdivided into 2 groups: denuded oocytes (DO) and cumulus-enclosed-oocytes (CEO). At 0, 4, 8, 12 and 16 h from the onset of the culture, oocytes were fixed and stained to visualize alpha-tubulin, chromatin and mt using confocal laser scanning microscopy (CLSM). It was observed that mt aggregated around the nucleus from the GV-stage through progression to germinal vesicle breakdown (GVBD). With the movement of the nucleus, mt were concentrated around the nucleus and polarized. The maturation rate (the rate of the first polar body extrusion) and the fertilization rate of CEO were significantly higher than that of DO in both groups A (p<0.01) and B (p<0.05). During the GV-stage to GVBD, the rate of mitochondrial aggregation around the nucleus tended to be high in group A (CEO). The rates of mitochondrial polarization in MI and MII oocytes were 76.1% with in-vitro maturation (IVM) and 86.7% with in-vivo-maturation, respectively; the rate was significantly higher in in-vivo-maturation-oocytes than in IVM-oocytes (p<0.01). From the present results it can be considered that aggregaton of mitochondria around the nucleus was essential for maturation, fertilization and development.

Organogenesis of heart-vascular system derived from mouse 2 cell stage embryos and from early embryonic stem cells in vitro.

Regenerative medical treatment with embryonic stem cells (an ES cell) is a goal for organ transplantation. Structures that are tubular in nature (i.e. blood capillaries) were induced from early embryonic stem (EES) cells in vitro using embryotrophic factor (ETFs). In addition, cardiac muscle cells could be identified as well. However, differentiation of EES cells into a complete cardiovascular system was difficult because 3 germ layer primordial organs are directed embryologically in various ways and it is not possible to guide only cardiovascular organs. Thus, we introduced ETFs after the formation of an embryoid body and were successful in cloning cell clusters that beat, thus deriving only cardiovascular organs. The application of this to the treatment of various cardiovascular diseases is promising.

New approach for the establishment of an hepatocyte cell line derived from rat early embryonic stem cells.

A cell line with the characteristics of hepatocytes was established from rat early embryonic stem cells (REES). This cell line was established using a new novel method of Ishiwata et al. from two cell embryos taken from the spontaneous dwarf rat (SDR). The hepatocyte cell line (REES-hep) was instituted from dark red colored tissue in embryos during embryogenesis using REES cell line cultured in the presence of embryotrophic factors. These cell lines were cultured with DMEM/F12 medium supplemented 10% FBS and 1 ng/ml of LIF. They were found to maintain their diploid state, were characterized with 42 normal chromosomes and proliferated to confluence; contact inhibition was also present. These cells produced albumin when cultured using a collagen sponge gel system and reconstructed in a funicular form resembling the cell cords of liver. The cells also produced albumin and bilirubin when transplanted into the spleen of SDR Reconstruction of a REES-hep cell line from early embryonic stem cells should help in treating hepatic insufficient patients. It will be valuable for further research, as an introduction to cell transplantation and application for use in a bio-hybrid typed liver apparatus.

In vitro culture of mouse GV oocytes and preantral follicles isolated from ovarian tissues cryopreserved by vitrification.

Cryopreservation of ovarian tissues containing many immature oocytes occurs in both gamete/embryo research and clinical medicine. Using vitrification, we studied factors related to meiosis after cryopreservation using the COCs (cumulus oocyte complexes) and preantral follicles obtained from cryopreserved ovarian tissues. COCs were isolated and cultured for 17 approximately 19 hr. Thereafter, Metaphase II stage (MII stage) oocytes and fertilized oocytes after IVF were observed at a rate of 76.5% and 60.0%, respectively. Preantral follicles (100 approximately 130 microm in diameter) were isolated and cultured in alpha MEM containing hFSH, ITS, and FBS. HCG and EGF were added to the media to stimulate ovulation on the 12th day of culture. The survival rates of the follicles obtained from the frozen/thawed ovaries were 66.4%. After 12 days of culture, the diameter of the follicles isolated from fresh (620.2 +/- 11.3 microm) and frozen/thawed ovaries (518.7 +/- 15.1 microm) differed as did the estradiol concentrations (3474.2 +/- 159 pg/ml vs. 1508.2 +/- 134 pg/ml). After in vitro ovulation, MII stage oocytes were observed in 84.5% of the fresh group and 60.5% of the frozen/thawed group while the fertilization rate was 74.2% and 53.5%, respectively. These studies demonstrate that cryopreservation of mouse ovarian tissues by vitrification did not affect the oocyte's ability to undergo meiosis. Thus, this technique may become a powerful tool for the preservation of the female gamete.

The fertilising ability of spermatogenic cells derived from cultured mouse immature testicular tissue.

There are many reports about the in vitro culture of spermatogenic cells, but no-one has succeeded in inducing the differentiation from spermatogonia to intact sperm. Also the study of in vitro testicular tissue culture has hardly advanced. We studied the culture of mouse immature testicular tissue derived from 5-day-old mice. We aimed to achieve the differentiation of spermatogenic cells in order to observe spermatogenesis in testicular tissue in vitro. We also froze mature testicular tissue and immature testicular tissue cultured for 2 weeks. Furthermore, spermatogenic cells differentiated by culturing were injected into metaphase II oocytes to determine whether these differentiated cells and frozen-thawed testicular tissue have fertilising and developmental ability. Under the culture conditions employed, secondary spermatocytes and a few round spermatids differentiated from spermatogonia were observed in the immature testicular tissue cultured for 2 weeks. When spermatogenic cells derived from cultured immature testicular tissue, cultured frozen immature testicular tissue and frozen-thawed mature testicular tissue were injected into ooplasm, the oocytes were fertilised and fertilised oocytes developed to the 8-cell stage. We suggest that spermatogenic cells derived from cultured immature testicular tissue have fertilising and developmental abilities equivalent to that of sperm. Also these abilities of spermatogenic cells obtained from cultured frozen immature testicular tissue and frozen-thawed mature testicular tissue were better than those of the same cells before freezing.

Development of reconstituted embryos derived from transgenic embryonic stem cell nuclei.

This study was carried out to transform embryonic stem (ES) cells and to produce the reconstituted embryos derived from transgenic ES cell nuclei. Then, in vitro/vivo developmental potency of transgenic ES cells were compared to that of control ES cells (non-transgenic ES cells) in the reconstituted embryos. Unfertilized B6D2F1 ooplasm at metaphase II (M II) and two kinds of ES cell lines, 129SV and transgenic (tg) 129SV transformed by EGFP gene, were used as nuclear recipients and nuclear donors, respectively. The M II chromosome-spindle complex was aspirated into the pipette with a minimal volume of ooplasm. After enucleation, the ES cell nuclei was injected into the enucleated ooplasm directly. Then, reconstituted embryos were activated in SrCl2, and they were cultured in HTF medium. There was no difference of developmental rate between reconstituted embryos derived from the control (non-transgenic) and the tg ES cells. From this result, we indicated that transgenic ES cells might not change the property of peculiarity of the ES cell by gene transfer. The expression of GFP gene in the embryos was observed by fluorescence microscope at the 4-cell and more stage. As comparison with development of the embryos derived from the control and tg ES cells, the difference of the development could not be confirmed between the two cell groups. When the reconstituted embryos derived from the control and tg ES cells were transferred into oviduct or uterus of pseudopregnant females, fetuses were observed 13.5 days post coitum. However, in all fetuses, developmental arrest and regression were seen 19.5 days post coitum.