Kiyoshi Akiyama scite author profile

To date, cloned farm animals have been produced by nuclear transfer from embryonic, fetal, and adult cell types. However, mice completely derived from embryonic stem (ES) cells have been produced by aggregation with tetraploid embryos. The objective of the present study was to generate offspring completely derived from bovine ES-like cells. ES-like cells isolated from the inner cell mass of in vitro-produced embryos were aggregated with tetraploid bovine embryos generated by electrofusion at the 2-cell stage. A total of 77 embryo aggregates produced by coculture of two 8-cell-stage tetraploid embryos and a clump of ES-like cells were cultured in vitro. Twenty-eight of the aggregates developed to the blastocyst stage, and 12 of these were transferred to recipient cows. Six calves representing 2 singletons and 2 sets of twins were produced from the transfer of the chimeric embryos. Microsatellite analysis for the 6 calves demonstrated that one calf was chimeric in the hair roots and the another was chimeric in the liver. However, unfortunately, both of these calves died shortly after birth. Two of the placentae from the remaining pregnancies were also chimeric. These results indicate that the bovine ES-like cells used in these studies were able to contribute to development.

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Effect of cellooligosaccharide or synbiotic feeding on growth performance, fecal condition and hormone concentrations in Holstein calves

Hasunuma

Kawashima²,

Nakayama

et al. 2011

Animal Science Journal

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We investigated the effect of cellooligosaccharide (CE) or a combination of dextran and Lactobacillus casei ssp. casei strain JCM1134(T) (synbiotic; SB) feeding on growth performance, fecal condition and hormone concentrations in Holstein calves. Fifty-two female Holstein calves were randomly assigned to three treatment groups: CE feeding group (n = 16), SB feeding group (n = 18), and control group (n = 18). Body weight at 90 days of age, as well as daily body weight gain (DG) and feed efficiency after weaning to 90 days of age were greater (P < 0.05) in the CE feeding group than in the control group. The total fecal score tended to be lower (P < 0.1) in the SB feeding group than in the control group. Plasma insulin concentration was higher (P < 0.05) in the CE feeding group than in the control group at 90 days of age. Our results indicate that CE feeding improved DG and feed efficiency in calves. On the other hand, there was less effect on growth performance and fecal Escherichia coli counts in calves fed SB.

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Normal Calves Produced After Transfer of Embryos Cultured in a Chemically Defined Medium Supplemented with Epidermal Growth Factor and Insulin-like Growth Factor I Following Ovum Pick Up and <i>In Vitro</i> Fertilization in Japanese Black Cows

Sakagami

Umeki

Nishino³

et al. 2012

J. Reprod. Dev.

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Abstract. The objective of this study was to examine whether high concentrations of epidermal growth factor (EGF) and/or insulin-like growth factor I (IGF-I) would have a beneficial effect on bovine embryo development in vitro and to obtain normal calves by using an ovum pick up method and embryo culture in a chemically defined medium. When compared with controls, EGF (100 or 200 ng/ml) or IGF-I (50 or 100 ng/ml) significantly increased the rate of embryos that developed into blastocysts during an 8-day culture after the in vitro fertilization of oocytes obtained from ovaries from a slaughterhouse. IGF-I induced a dose-dependent increase in cell number in both the inner cell mass and the trophectoderm, whereas EGF stimulated proliferation only in the inner cell mass. A combination of EGF (100 ng/ml) and IGF-I (50 ng/ml) produced an additive effect, and embryos developed into blastocysts at a comparatively high rate (27.9%) compared with controls (12.0%). A similar rate of development was achieved using a combination of EGF and IGF-I in the culture of embryos following ovum pick up by ultrasound-guided transvaginal follicular aspiration and in vitro fertilization, and 5 blastocysts that developed after the culture were transferred into uteri; two embryos implanted, and normal calves were born. These results suggest that the combined use of EGF and IGF-I makes bovine embryo culture in a chemically defined medium a practical and useful procedure for producing blastocysts, and its application to embryo culture following ovum pick up and in vitro fertilization could be useful for producing normal calves. Key words: Bovine embryo, Chemically defined medium, Epidermal growth factor (EGF), Insulin-like growth factor I (IGF-I), Ovum pick up (OPU) (J. Reprod. Dev. 58: [140][141][142][143][144][145][146] 2012) R ecently, a number of calves have been produced by the ovum pick up (OPU) method and in vitro culture (IVC) systems. Since the OPU method can be repeatedly applied to the same cow and can be used in pregnant [1] or problem cows in which embryos have not been obtained by uterine flushing after artificial insemination [2], this technology is effective for facilitating the improvement of domestic animals.An IVC system is necessary for the OPU method. Since successful pregnancy by transfer of embryos following the OPU method and in vitro fertilization has been confirmed [3], different protocols and medium conditions for oocyte maturation and embryo development have been tested [4][5][6][7]. However, there are some problems associated with the IVC system, such as a skewed sex ratio [8,9] or large offspring syndrome [10,11]. It has been suggested that factors in the culture medium such as serum used for embryo development may be involved in these problems. Fetal bovine serum (FBS) is widely employed as a supplement in the media used for culturing in vitro fertilized bovine embryos, but the subsequent rate of development of the fertilized oocytes to the blastocyst stage is known to vary among serum lots. There is thus a...

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Effects of supplementing an active dry yeast product on rumen microbial community composition and on subsequent rumen fermentation of lactating cows in the mid‐to‐late lactation period

Uyeno

Akiyama²,

Hasunuma

et al. 2016

Animal Science Journal

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The effects of supplementing feed of cows in mid-to-late lactation with an active yeast product (Actisaf Sc 47) were evaluated using 15 Holstein cows in a replicated 3 × 3 Latin square design. The animals were fed a mixed ration with 33% neutral detergent fiber, consisting of timothy hay (29.8%), a commercial concentrate (70.0%) and commercial calcium triphosphate (0.2%), twice daily to meet 105% of their energy requirement. Yeast supplement was set at 0, 5 and 10 g per day over 21-day periods, each of which consisted of 14 days for adaptation followed by 7 days of data collection. Milking performance, plasma metabolite parameters, rumen volatile fatty acids, lipopolysaccharide and microbial properties were measured. Although there were no significant differences in feeding and milking performance or blood parameters associated with supplementation, the acetate to propionate ratio in the rumen fluid tended to decrease (P = 0.08). The population of Bacteroidetes tended to be less prominent (P = 0.07) and the fibrolytic bacterium Fibrobacter significantly increased (P < 0.05) in the rumen fluid of the yeast 10 g group compared with that of the control. These data suggest that effects of supplementing live yeast to cows in mid-to-late lactation may be limited to microbial composition and fermentation characteristics in the rumen.

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Classification of Morphological Changes Based on the Number of Cleavage Divisions in Bovine Embryos

Ushijima

Akiyama²,

Tajima

2009

Journal of Reproduction and Development

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Abstract. Quantification based on cleavage division (CD) of bovine preimplantation embryos facilitates quantitative analyses of embryonic developmental processes because CD occurs roughly once each day for all blastomeres for up to at least 9 days after ovulation. Therefore, embryonic morphological changes during this period were classified according to CD number. In this study, embryos collected from superovulated donors 0-9 days after ovulation were first classified morphologically into 14 conventional developmental stages. The total cell numbers (TCN) of embryos were measured using the air-dry method. The respective CD numbers of the embryos were then determined using logarithmic transformation of the TCN. The CD numbers of embryos were increased 0-10th with 11 stages. The 0th CD corresponded to 1-cell stage embryos; the 1st CD corresponded to 2-cell stage embryos; the 2nd CD corresponded to 3-4-cell stage embryos; the 3rd CD corresponded to 5-8-cell stage embryos; the 4th CD corresponded to 9-16-cell stage embryos, the 5th CD corresponded to morulae (17-32-cell stage embryos); and the 6th CD corresponded to the compact morulae. Furthermore, the 7th CD included early blastocysts to blastocysts. The 8th CD included expanded, collapsed and hatching blastocysts. The 9th CD included hatched blastocysts. The 10th CD included expanding-hatched blastocysts. The relationship between the CD number and the morphological characteristics of the bovine embryos 0-9 days after ovulation was expressed using a linear equation, and this revealed a high degree of correlation (y=0.98x-0.96, r=0.99). These results suggest that morphological changes of bovine embryos can be classified accurately using an 11-stage classification system based on the number of cleavages.

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Kiyoshi Akiyama

Production of Live Calves Derived from Embryonic Stem-Like Cells Aggregated with Tetraploid Embryos1

Effect of cellooligosaccharide or synbiotic feeding on growth performance, fecal condition and hormone concentrations in Holstein calves

Normal Calves Produced After Transfer of Embryos Cultured in a Chemically Defined Medium Supplemented with Epidermal Growth Factor and Insulin-like Growth Factor I Following Ovum Pick Up and <i>In Vitro</i> Fertilization in Japanese Black Cows

Effects of supplementing an active dry yeast product on rumen microbial community composition and on subsequent rumen fermentation of lactating cows in the mid‐to‐late lactation period

Classification of Morphological Changes Based on the Number of Cleavage Divisions in Bovine Embryos

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