Your search keyword '"Azuma, Sadahiro"' showing total 7 results

1. Development of Immunocompetent Lymphocytes In Vivo From Murine Umbilical Cord Blood Cells

Author

Oikawa, Atsuhiko, Ito, Koichi, Seguchi, Hirotoshi, Okabe, Motohito, Migishima, Fujio, Eshima, Koji, Azuma, Sadahiro, Song, Si-Young, Kaneko, Takehisa, and Shinohara, Nobukata

Abstract

Reports concerning the immunological functions of lymphocytes derived from umbilical cord blood cell (UCBC) have been limited.

Published

2007

2. Recruitment of a Prostaglandin E Receptor Subtype, EP3-Expressing Bone Marrow Cells Is Crucial in Wound-Induced Angiogenesis

Author

Kamoshita, Emi, Ikeda, Yasuhiro, Fujita, Mamoru, Amano, Hideki, Oikawa, Atsuhiko, Suzuki, Tastunori, Ogawa, Yasuhumi, Yamashina, Shohei, Azuma, Sadahiro, Narumiya, Shuh, Unno, Nobuya, and Majima, Masataka

Abstract

E-type prostaglandins have been reported to be proangiogenic in vivo. Thus, we examined prostaglandin receptor signaling relevant to wound-induced angiogenesis. Full-thickness skin wounds were created on the backs of mice, and angiogenesis in wound granulation tissues was estimated. Wound closure and re-epithelization in EP3 receptor knockout mice (EP3−/−) were significantly delayed compared with their wild-type (WT) mice, whereas those in EP1−/−, EP2−/−, and EP4−/−were not delayed. Wound-induced angiogenesis estimated with CD31 immunohistochemistry in EP3−/−mice was significantly inhibited compared with that in WT mice. Immunoreactive vascular endothelial growth factor (VEGF) in wound granulation tissues in EP3−/−mice was markedly less than that in WT mice. Wound closure in WT mice was delayed significantly by VEGF neutralizing antibody compared with control IgG. Wound-induced angiogenesis and wound closure were significantly suppressed in EP3−/−bone marrow transplantation mice compared with those in WT bone marrow transplantation mice. These were accompanied with the reductions in accumulation of VEGF-expressing cells in wound granulation tissues and in mobilization of VEGF receptor 1-expressing leukocytes in peripheral circulation. These results indicate that the recruitment of EP3-expressing cells to wound granulation tissues is critical for surgical wound healing and angiogenesis via up-regulation of VEGF.

Published

2006

3. Successful Cryopreservation of Mouse Ovaries by Vitrification1

Author

Migishima, Fujio, Suzuki-Migishima, Rika, Song, Si-Young, Kuramochi, Takashi, Azuma, Sadahiro, Nishijima, Masahiro, and Yokoyama, Minesuke

Abstract

We developed a new method of cryopreservation of whole ovaries by vitrification using DAP213 (2 M dimethyl sulfoxide, 1 M acetamide, and M propylene glycol) as a cryoprotectant. Four-week-old C57BL/6 mice that underwent partial ovariectomy were orthotopically transplanted with cryopreserved or fresh ovaries (experimental or control group) isolated from 10-day-old green fluorescent protein (GFP)-transgenic mice (+/+). GFP-positive pups were similarly obtained from both groups by natural mating or in vitro fertilization (IVF) followed by embryo transfer, indicating that the cryopreserved ovaries by vitrification retain their fecundity. However, a statistically significant difference (P< 0.05) was found between both groups with respect to the following parameters: the number of GFP-positive pups born by natural mating/grafted ovary (0.8 ± 0.3 for the experimental group versus 2.0 ± 0.7 for the control group, mean ± SEM), the number of collected oocytes by superovulation per mouse (7.0 ± 1.7 for the experimental group versus 22.7 ± 3.2 for the control group), the percentage of two-cell embryos obtained from GFP-positive oocytes by IVF (38.5% for the experimental group versus 90.0% for the control group). Histologically, normal development of follicles and formation of corpora lutea were observed in frozen-thawed grafts. However, estimated number of follicles decreased in frozen-thawed ovaries compared with fresh ovaries. Taken together, cryopreservation of the ovary by vitrification seems a promising method to preserve ovarian function, but further studies are required to overcome the possible inhibitory effects of this method on the growth of the ovarian graft.

Published

2003

4. Targeted Disruption of Na+/Ca2+Exchanger Gene Leads to Cardiomyocyte Apoptosis and Defects in Heartbeat*

Author

Wakimoto, Koji, Kobayashi, Kinji, Kuro-o, Makoto, Yao, Atsushi, Iwamoto, Takahiro, Yanaka, Noriyuki, Kita, Satomi, Nishida, Atsuyuki, Azuma, Sadahiro, Toyoda, Yutaka, Omori, Kenji, Imahie, Hiroshi, Oka, Toru, Kudoh, Sumiyo, Kohmoto, Osami, Yazaki, Yoshio, Shigekawa, Munekazu, Imai, Yuji, Nabeshima, Yo-ichi, and Komuro, Issei

Abstract

Ca2+, which enters cardiac myocytes through voltage-dependent Ca2+channels during excitation, is extruded from myocytes primarily by the Na+/Ca2+exchanger (NCX1) during relaxation. The increase in intracellular Ca2+concentration in myocytes by digitalis treatment and after ischemia/reperfusion is also thought to result from the reverse mode of the Na+/Ca2+exchange mechanism. However, the precise roles of the NCX1 are still unclear because of the lack of its specific inhibitors. We generated Ncx1-deficient mice by gene targeting to determine the in vivofunction of the exchanger. Homozygous Ncx1-deficient mice died between embryonic days 9 and 10. Their hearts did not beat, and cardiac myocytes showed apoptosis. No forward mode or reverse mode of the Na+/Ca2+exchange activity was detected in null mutant hearts. The Na+-dependent Ca2+exchange activity as well as protein content of NCX1 were decreased by ∼50% in the heart, kidney, aorta, and smooth muscle cells of the heterozygous mice, and tension development of the aortic ring in Na+-free solution was markedly impaired in heterozygous mice. These findings suggest that NCX1 is required for heartbeats and survival of cardiac myocytes in embryos and plays critical roles in Na+-dependent Ca2+handling in the heart and aorta.

Published

2000

5. Effect of a Partial Deletion of Y Chromosome on in Vitro Fertilizing Ability of Mouse Spermatozoa1

Author

Xian, Meiwei, Azuma, Sadahiro, Naito, Kunihiko, Kunieda, Tetsuo, Moriwaki, Kazuo, and Toyoda, Yutaka

Abstract

The effect of a partial deletion of Y chromosome on sperm fertilizing ability was investigated through an in vitro fertilization technique. Epididymal spermatozoa of a congenic line, B10.BR-Ydel, which is characterized by a high incidence of abnormal spermatozoa, revealed a significantly lower in vitro fertilization rate (22%) than that (79%) of its control strain (B10.BR/SgSn), which has a normal-sized Y chromosome. Incidence of capacitated spermatozoa as determined by chlortetracycline fluorescence assay was significantly lower in B10.BR-Ydelthan in B10.BR/SgSn spermatozoa. The fertilization rate was significantly improved when B10.BR-Ydelspermatozoa were separated from the supernatant of sperm suspension by Percoll gradient centrifugation. A reconstitution experiment revealed that the B10.BR-Ydelspermatozoa were more sensitive to the inhibitory effect of the supernatant than B10.BR/SgSn spermatozoa. Spermatozoa from F1 (C57BL/6N male × B10.BR-Ydelfemale) males showed higher fertilization rates than those from F1 (B10.BR.Ydelmale × C57BL/6N female) males. These observations suggest that not only the morphology but also the fertilizing ability of spermatozoa is directly related to partial deletion of Y chromosome.

Published

1992

6. Developmental fate of single embryonic stem cells microinjected into 8-cell-stage mouse embryos

Author

Saburi, Sakura, Sato, Eimei, Azuma, Sadahiro, Toyoda, Yutaka, and Tachi, Chikashi

Abstract

Embryonic stem (ES) cells are pluripotent and capable of differentiating into somatic as well as germ cell lineages when conjoined with blastomeres of early mouse embryos. However, the developmental potential of single ES cells has not been fully investigated. We injected single murine ES cells (A3-1 cell line) of 129 origin into 8-cell mouse embryos (B6xBDF1) and examined the patterns of distribution of ES-cell-derived cells in the blastocysts as well as in the fully grown chimeric mice. The ES cells underwent 1–2 cycles of mitosis between the 8-cell and the blastocyst stage when they were introduced as single cells, whereas those introduced as groups of 2–5 cells did not proliferate during the same period of development. The ES cells and their daughter cells were predominantly incorporated into the ICM. From the 63 8-cell embryos which received single ES cells microinjected into the perivitelline space, 24 newborns were obtained, and 4 (2 fertile males, 1 sterile female and 1 hermaphrodite) of them (16.6%) were chimeric. The test breeding studies revealed that all the progeny of the two chimeric males were derived from spermatozoa of 129 genotype. The relative contribution of the host-derived and the ES-cell-derived cells in different tissues of the chimeric mice was assessed by PCR analyses of the microsatellite polymorphism of genomic DNA extracted from the tissues. In the two male germ line chimeras, the testes, the kidneys and the dorsal skeletal muscles exhibited exceptionally high 129 contents. Our results demonstrated that single ES cells which maintain totipotency or pluripotency of high degree are present in a colony of ES cells, and that single ES cells conjoined with the blastomeres of 8-cell-stage embryos may colonize, if the circumstances allow, almost exclusively the germ cells and concomitantly the urogenital cell lineages. Possible correlation between the allocation of the germ line and the urogenital lineages is discussed.

Published

1997

7. Effects of Phosphate on in Vitro 2-Cell Block of AKR/N Mouse Embryos Based on Changes in cdc2 Kinase Activity and Phosphorylation States1

Author

Haraguchi, Seiki, Naito, Kunihiko, Azuma, Sadahiro, Sato, Eimei, Nagahama, Yoshitaka, Yamashita, Masakane, and Toyoda, Yutaka

Abstract

This study demonstrated the effects of phosphate on the 2-cell block of AKR/N mouse embryos at the molecular level and focused on changes in the kinase activity and the phosphorylation state of cdc2, which is shown to regulate the cell division cycle. Removal of phosphate from the culture medium dramatically increased developmental rates to the 4-cell (91.8%) and blastocyst (42.6%) stages compared with those of embryos cultured in 1.17 mM phosphate (3.3% and 0%, respectively). The rate of development to the 4-cell stage was significantly inhibited by 0.001 mM phosphate (p< 0.05), and no morula formation was observed at 1.0 mM. The patterns of cdc2 kinase activity during the first cell cycle in AKR/N embryos were similar to those of control MCH embryos, showing the highest activity at M phase and low activity during the interphase. The phosphorylated form of cdc2 increased during the interphase, indicating that the synthesis of cyclin B and accumulation of inactive pre-maturation-promoting factor (pre-MPF) as well as abrupt dephosphorylation of cdc2 at the first cleavage correlated with the activation of cdc2 kinase. When phosphate was absent, the activation pattern of cdc2 kinase during the second cell cycle in AKR/N embryos was similar to that in the first cell cycle. On the other hand, no dephosphorylation of cdc2 was observed and the kinase activity remained at a low level until 56 h after insemination in the presence of phosphate, although an increase in phosphorylated cdc2 was observed as in the phosphate-free group. Treatment of AKR/N embryos arrested at the 2-cell stage with okadaic acid resulted in the dephosphorylation and activation of cdc2, confirming the presence of a sufficient amount of pre-MPF. These results show that phosphate has a deteriorative effect on the in vitro development of AKR/N embryos and suggest that this effect was not on the synthesis of cyclin B but on the dephosphorylation of phosphorylated cdc2.

Published

1996