Your search keyword '"Tsutsui, Chihiro"' showing total 5 results

1. Evaluation of oxidative stress during apoptosis and necrosis caused by carbon tetrachloride in rat liver

Author

Sun, Fang, Hamagawa, Eri, Tsutsui, Chihiro, Ono, Yoshiko, Ogiri, Yukako, and Kojo, Shosuke

Published

2001

2. House musk shrew (Suncus murinus, order: Insectivora) as a new model animal for motilin study

Author

Tsutsui, Chihiro, Kajihara, Kie, Yanaka, Takatsugu, Sakata, Ichiro, Itoh, Zen, Oda, Sen-ichi, and Sakai, Takafumi

Subjects

*MOTILIN, *SHREWS, *MOLECULAR cloning, *MESSENGER RNA, *POLYMERASE chain reaction, *GASTROINTESTINAL system, *ANIMAL models in research

Abstract

Abstract: Although many studies have demonstrated the action of motilin on migrating motor complex by using human subjects and relatively large animals, the precise physiological mechanisms of motilin remain obscure. One reason for the lack of progress in this research field is that large animals are generally not suitable for molecular-level study. To overcome this problem, in this study, we focused on the house musk shrew (Suncus murinus, order: Insectivora, suncus named as laboratory strain) as a small model animal, and we present here the results of motilin gene cloning and its availability for motilin study. The motilin gene has a high homology sequence with that of other mammals, including humans. Suncus motilin is predicted to exist as a 117-residue prepropeptide that undergoes proteolytic cleavage to form a 22-amino-acid mature peptide. The results of RT-PCR showed that motilin mRNA is highly expressed in the upper small intestine, and low levels of expression were found in many tissues. Morphological analysis revealed that suncus motilin-producing cells were present in the upper small intestinal mucosal layer but not in the myenteric plexus. Administration of suncus motilin to prepared muscle strips of rabbit duodenum showed almost the same contractile effect as that of human motilin. Moreover, suncus stomach preparations clearly responded to suncus or human motilin stimulation. To our knowledge, this is the first report that physiological active motilin was determined in small laboratory animals, and the results of this study suggest that suncus is a suitable model animal for studying the motilin-ghrelin family. [Copyright &y& Elsevier]

Published

2009

3. Identification of ghrelin in the house musk shrew (Suncus murinus): cDNA cloning, peptide purification and tissue distribution

Author

Ishida, Yuko, Sakahara, Satoshi, Tsutsui, Chihiro, Kaiya, Hiroyuki, Sakata, Ichiro, Oda, Sen-ichi, and Sakai, Takafumi

Subjects

*GHRELIN, *SUNCUS murinus, *MOLECULAR cloning, *SOMATOTROPIN, *HORMONE receptors, *MESSENGER RNA, *NUCLEOTIDE sequence, *COMPLEMENTARY DNA

Abstract

Abstract: Ghrelin is the endogenous ligand for the growth hormone (GH) secretagogue receptor, and the sequence of ghrelin has been determined in many species from fish to mammals. In the present study, to reveal the production of ghrelin in the house musk shrew (Suncus murinus, order: Insectivora, suncus is used as a laboratory name), we determined the cDNA sequence and structure of suncus ghrelin and also demonstrated the ghrelin-producing cells in the gastrointestinal tract. Results of cDNA cloning and mass spectrometry analysis revealed that suncus ghrelin is composed of 18 or 26 amino acid residues and that the 3rd Ser was acylated mainly by n-octanoic acid. The 10 amino acids of the N-terminal region of suncus mature ghrelin were consistent with those of other mammals. Quantitative RT-PCR revealed that suncus ghrelin mRNA is highly expressed in the gastric corpus and pyloric antrum, and low expression levels were found in various tissues, including the intestinal tract. Ghrelin cells were found only in the corpus and antrum by immunohistochemistry and in situ hybridization, and most of the ghrelin cells were closed-type cells with relatively rich cytoplasm and scattered in the glandular body and base of the gastric mucosa. The density of ghrelin cells in the corpus was significantly greater than that in the antrum. The results of this study together with our recent results regarding motilin production in the suncus indicate that the suncus will be a useful model animal for study of physiological function of the motilin/ghrelin family. [Copyright &y& Elsevier]

Published

2009

4. Evaluation of oxidative stress during apoptosis and necrosis caused by d-galactosamine in rat liver

Author

Sun, Fang, Hamagawa, Eri, Tsutsui, Chihiro, Sakaguchi, Naomi, Kakuta, Yuri, Tokumaru, Sadako, and Kojo, Shosuke

Subjects

*APOPTOSIS, *PROTEOLYTIC enzymes

Abstract

Eighteen and twenty-four hours after intraperitoneal administration of d-galactosamine (1 g/kg body weight) to rats, the activity of caspase-3-like protease in the liver increased significantly compared with that in the control group given saline. Histological examinations including the in situ terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) method found apoptotic hepatocytes 18 hr after the administration of d-galactosamine. Caspase-3 activity was barely detectable in the plasma of control rats, but increased significantly 24 hr after drug administration along with a dramatic increase in glutamate-oxaloacetate transaminase (GOT). These results indicated that d-galactosamine causes apoptosis in the liver by activating caspase-3, which is released to the plasma by secondary necrosis. The concentration of lipid hydroperoxides in the liver increased significantly 24 hr after d-galactosamine administration. In contrast, the concentration of vitamin C in the liver decreased significantly 18 and 24 hr after d-galactosamine administration. These results suggest that d-galactosamine induces severe oxidative stress in the liver, leading to extensive necrosis. [Copyright &y& Elsevier]

Published

2003

5. Molecular identification of GHS-R and GPR38 in Suncus murinus

Author

Suzuki, Airi, Ishida, Yuko, Aizawa, Sayaka, Sakata, Ichiro, Tsutsui, Chihiro, Mondal, Anupom, Kanako, Koike, and Sakai, Takafumi

Subjects

*SUNCUS murinus, *GHRELIN, *MOTILIN, *GASTROINTESTINAL motility, *SOMATOTROPIN, *GHRELIN receptors, *AMINO acids

Abstract

Abstract: We previously identified ghrelin and motilin genes in Suncus murinus (suncus), and also revealed that motilin induces phase III-like strong contractions in the suncus stomach in vivo, as observed in humans and dogs. Moreover, repeated migrating motor complexes were found in the gastrointestinal tract of suncus at regular 120-min intervals. We therefore proposed suncus as a small laboratory animal model for the study of gastrointestinal motility. In the present study, we identified growth hormone secretagogue receptor (GHS-R) and motilin receptor (GPR38) genes in the suncus. We also examined their tissue distribution throughout the body. The amino acids of suncus GHS-R and GPR38 showed high homology with those of other mammals and shared 42% amino acid identity. RT-PCR showed that both the receptors were expressed in the hypothalamus, medulla oblongata, pituitary gland and the nodose ganglion in the central nervous system. In addition, GHS-R mRNA expressions were detected throughout the stomach and intestine, whereas GPR38 was expressed in the gastric muscle layer, lower intestine, lungs, heart, and pituitary gland. These results suggest that ghrelin and motilin affect gut motility and energy metabolism via specific receptors expressed in the gastrointestinal tract and/or in the central nervous system of suncus. [Copyright &y& Elsevier]

Published

2012