15 results on '"SAKATA, ICHIRO"'
Search Results
2. Leptin therapy improves insulin-deficient type 1 diabetes by CNS-dependent mechanisms in mice
- Author
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Fujikawa, Teppei, Chuang, Jen-Chieh, Sakata, Ichiro, Ramadori, Giorgio, and Coppari, Roberto
- Published
- 2010
3. Ghrelin secretion stimulated by β 1 -adrenergic receptors in cultured ghrelinoma cells and in fasted mice
- Author
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Zhao, Tong-Jin, Sakata, Ichiro, Li, Robert Lin, Liang, Guosheng, Richardson, James A., Brown, Michael S., Goldstein, Joseph L., and Zigman, Jeffrey M.
- Published
- 2010
4. Generation and characterization of Suncus murinus intestinal organoid: a useful tool for studying motilin secretion.
- Author
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Takakura, Natsumi, Takemi, Shota, Kumaki, Shunsuke, Matsumoto, Mio, Sakai, Takafumi, Iwatsuki, Ken, and Sakata, Ichiro
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SECRETION ,MESSENGER RNA ,MOTILIN ,GASTROINTESTINAL motility ,SMALL intestine - Abstract
Motilin, a 22‐amino‐acid peptide produced in the upper small intestine, induces strong gastric contraction in fasted state. In many rodents, motilin and its cognate receptors exist as pseudogenes, which has delayed motilin research in the past decades. Recently, the house musk shrew (Suncus murinus) was developed as a useful model for studying motilin and gastrointestinal motility. However, due to a lack of motilin‐producing cell lines and difficulties in culturing small intestinal cells, the regulatory mechanisms of motilin secretion and its messenger RNA (mRNA) transcription have remained largely unclear. In this study, we generated small intestinal organoids from S. murinus for the first time. Using methods similar to mouse organoid generation, we found crypt‐like budding structures 3 days after isolating intestinal tissues. The organoids grew gradually with time. In addition, the generated organoids were able to be passaged and maintained for 6 months or longer. Motilin messenger RNA (mRNA) and immunopositive cells were observed in both S. murinus intestinal organoids and primary tissues. This is the first report of intestinal organoids in S. murinus, and our results suggest that S. murinus intestinal organoids could be useful for analyzing motilin secretion and transcription. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
5. The effect of glutamate on ghrelin release in mice.
- Author
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Chacrabati, Rakhi, Gong, Zhi, Ikenoya, Chika, Kondo, Daisuke, Zigman, Jeffrey M., Sakai, Takafumi, and Sakata, Ichiro
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GHRELIN receptors ,SMALL interfering RNA ,MESSENGER RNA ,CELL lines ,PHYSIOLOGICAL effects of glutamic acid ,PHYSIOLOGY - Abstract
Ghrelin is abundantly produced in the stomach. Here, we found that glutamate decreased ghrelin expression and release in ghrelin-producing cells, and decreased levels of food intake and plasma acyl-ghrelin in mice. Treatment with siRNA of G protein-coupled receptor, family C, group 5, member B (GPRC5B) in ghrelin-producing cell lines completely blocked the effect of glutamate-induced ghrelin suppression. In addition, glutamate inhibited ghrelin release via the extracellular signalregulated kinase (ERK) activity pathway, and stimulated CREB2 mRNA expression in ghrelin-producing cell lines. These results suggest that glutamate inhibits ghrelin release via ERK-CREB2 pathway. These results suggest that the GPRC5B-ERKCREB2 pathway is involved in the inhibition of ghrelin expression and secretion in ghrelin cells. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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6. The proximal gastric corpus is the most responsive site of motilin-induced contractions in the stomach of the Asian house shrew.
- Author
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Dudani, Amrita, Aizawa, Sayaka, Zhi, Gong, Tanaka, Toru, Jogahara, Takamichi, Sakata, Ichiro, and Sakai, Takafumi
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MOTILIN ,SHREWS ,MESSENGER RNA ,TETRODOTOXIN ,ATROPINE - Abstract
The migrating motor complex (MMC) is responsible for emptying the stomach during the interdigestive period, in preparation for the next meal. It is known that gastric phase III of MMC starts from the proximal stomach and propagates the contraction downwards. We hypothesized that a certain region of the stomach must be more responsive to motilin than others, and that motilin-induced strong gastric contractions propagate from that site. Stomachs of the Suncus or Asian house shrew, a small insectivorous mammal, were dissected and the fundus, proximal corpus, distal corpus, and antrum were examined to study the effect of motilin using an organ bath experiment. Motilin-induced contractions differed in different parts of the stomach. Only the proximal corpus induced gastric contraction even at motilin 10 M, and strong contraction was induced by motilin 10 M in all parts of the stomach. The GPR38 mRNA expression was also higher in the proximal corpus than in the other sections, and the lowest expression was observed in the antrum. GPR38 mRNA expression varied with low expression in the mucosal layer and high expression in the muscle layer. Additionally, motilin-induced contractions in each dissected part of the stomach were inhibited by tetrodotoxin and atropine pretreatment. These results suggest that motilin reactivity is not consistent throughout the stomach, and an area of the proximal corpus including the cardia is the most sensitive to motilin. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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7. Negative Regulation of Neuromedin U mRNA Expression in the Rat Pars Tuberalis by Melatonin.
- Author
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Aizawa, Sayaka, Sakata, Ichiro, Nagasaka, Mai, Higaki, Yuriko, and Sakai, Takafumi
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NEUROMEDIN U , *MESSENGER RNA , *MELATONIN , *LABORATORY rats , *ANTERIOR pituitary gland , *GENE expression , *NEUROCHEMISTRY - Abstract
The pars tuberalis (PT) is part of the anterior pituitary gland surrounding the median eminence as a thin cell layer. The characteristics of PT differ from those of the pars distalis (PD), such as cell composition and gene expression, suggesting that the PT has a unique physiological function compared to the PD. Because the PT highly expresses melatonin receptor type 1, it is considered a mediator of seasonal and/or circadian signals of melatonin. Expression of neuromedin U (NMU) that is known to regulate energy balance has been previously reported in the rat PT; however, the regulatory mechanism of NMU mRNA expression and secretion in the PT are still obscure. In this study, we examined both the diurnal change of NMU mRNA expression in the rat PT and the effects of melatonin on NMU in vivo. In situ hybridization and quantitative PCR analysis of laser microdissected PT samples revealed that NMU mRNA expression in the PT has diurnal variation that is high during the light phase and low during the dark phase. Furthermore, melatonin administration significantly suppressed NMU mRNA expression in the PT in vivo. On the other hand, 48 h fasting did not have an effect on PT-NMU mRNA expression, and the diurnal change of NMU mRNA expression was maintained. We also found the highest expression of neuromedin U receptor type 2 (NMUR2) mRNA in the third ventricle ependymal cell layer, followed by the arcuate nucleus and the spinal cord. These results suggest that NMU mRNA expression in the PT is downregulated by melatonin during the dark phase and shows diurnal change. Considering that NMU mRNA in the PT showed the highest expression level in the brain, PT-NMU may act on NMUR2 in the brain, especially in the third ventricle ependymal cell layer, with a circadian rhythm. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
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8. Glutamine and glutamic acid enhance thyroid-stimulating hormone β subunit mRNA expression in the rat pars tuberalis.
- Author
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Aizawa, Sayaka, Sakai, Takafumi, and Sakata, Ichiro
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THYROTROPIN ,GLUTAMINE ,MESSENGER RNA ,CIRCADIAN rhythms ,MELATONIN ,PROTEIN microarrays - Abstract
Thyroid-stimulating hormone (TSH)-producing cells of the pars tuberalis (PT) display distinct characteristics that differ from those of the pars distalis (PD). The mRNA expression of TSHb and aGSU in PT has a circadian rhythm and is inhibited by melatonin via melatonin receptor type 1; however, the detailed regulatory mechanism for TSHb expression in the PT remains unclear. To identify the factors that affect PT, a microarray analysis was performed on lasercaptured PT tissue to screen for genes coding for receptors that are abundantly expressed in the PT. In the PT, we found high expression of the KA2, which is an ionotropic glutamic acid receptor (iGluR). In addition, the amino acid transporter A2 (ATA2), also known as the glutamine transporter, and glutaminase (GLS), as well as GLS2, were highly expressed in the PT compared to the PD. We examined the effects of glutamine and glutamic acid on TSHb expression and aGSU expression in PT slice cultures. L-Glutamine and L-glutamic acid significantly stimulated TSHb expression in PT slices after 2- and 4-h treatments, and the effect of L-glutamic acid was stronger than that of L-glutamine. In contrast, treatment with glutamine and glutamic acid did not affect aGSU expression in the PT or the expression of TSHb or aGSU in the PD. These results strongly suggest that glutamine is taken up by PT cells through ATA2 and that glutamic acid locally converted from glutamine by Gls induces TSHb expression via the KA2 in an autocrine and/or paracrine manner in the PT. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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9. Detailed analysis of formation of chicken pituitary primordium in early embryonic development.
- Author
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Takagi, Hiroyasu, Nagashima, Keiko, Inoue, Makiko, Sakata, Ichiro, and Sakai, Takafumi
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ANTERIOR pituitary gland ,IN situ hybridization ,ECTODERMAL dysplasia ,EMBRYOLOGY ,PITUITARY hormones ,CHICKEN embryos ,DIENCEPHALON ,CELLS ,GENES ,CELL cycle ,MESSENGER RNA - Abstract
The primordium of the mammalian adenohypophysis derived from Rathke’s pouch (RP) is known to be formed by oral ectoderm invagination. However, in the early phase of pituitary development, the detailed process by which the oral ectoderm develops into the adenohypophysis remains largely unknown. Using high-resolution non-radiolabeled in situ hybridization and the BrdU and TUNEL methods, we have examined the detailed expression pattern of factors involved in the formation of RP of chicken and the changes in the mitotic and apoptotic cell regions in RP. In the chicken embryo, Sonic hedgehog (Shh) mRNA was initially expressed in the stomodeal plate but not in the oral ectoderm. After prospective diencephalon had detached from the oral ectoderm, another Shh-expressing region appeared in the most rostral part of the recess. LIM homeobox gene 3 (Lhx3) mRNA first appeared in the anterior area of Rathke’s recess, and expression then spread to the caudal region. αGSU mRNA-expressing cells were observed at both ends of the Lhx3-expressing region, and thereafter the expression area moved to the posterior region. Furthermore, a close overlap was found between the proliferating region and Lhx3 mRNA-expressing area, and TUNEL-positive cells appeared in Seessel’s pouch derived from the foregut. Thus, the primordium of the pituitary gland corresponding to the Lhx3-expressing region is surrounded by the Shh-expressing region, which appears in two steps, and the mass growth and invagination of RP of chicken result from the coordination of the dorsal extension of the anterior region and the ventral extension of the posterior region of RP. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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10. Identification of immunoreactive plasma and stomach ghrelin, and expression of stomach ghrelin mRNA in the bullfrog, Rana catesbeiana
- Author
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Kaiya, Hiroyuki, Sakata, Ichiro, Yamamoto, Kazutoshi, Koda, Aya, Sakai, Takafumi, Kangawa, Kenji, and Kikuyama, Sakae
- Subjects
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RADIOIMMUNOASSAY , *MESSENGER RNA , *IMMUNOHISTOCHEMISTRY , *IN situ hybridization - Abstract
Abstract: In this study, we established a radioimmunoassay (RIA) specific for ghrelin from the bullfrog Rana catesbeiana using a novel antibody raised against the C-terminal amino acid sequence of bullfrog ghrelin [13–28]. We also examined the distribution of ghrelin-producing cells in the stomachs of bullfrogs using this antibody and a cRNA probe specific for the bullfrog ghrelin gene. Ghrelin levels in plasma and stomach extracts were approximately 150fmol/ml and 83–135fmol/mg wet tissue, respectively. Reverse-phase high performance liquid chromatographic analysis, combined with bullfrog ghrelin RIA, revealed that ghrelin immunoreactivity in the stomach was composed of non-acylated ghrelin (des-acyl ghrelin) and several acylated forms of ghrelin bearing different fatty acid modifications, which could induce increases in intracellular Ca2+ in cells expressing the rat GH secretagogue receptor. In the stomach, the major storage form was acylated ghrelin. In bullfrog plasma, however, the majority of ghrelin immunoreactivity was des-acyl ghrelin and C-terminal fragments of frog ghrelin. Acylated ghrelin forms comprised only minor peaks. Ghrelin-immunopositive and ghrelin mRNA-expressing cells were observed within the mucosal layer of the stomach. Following starvation, significant increases in plasma ghrelin levels and stomach ghrelin mRNA levels were observed as early as 10 days after starvation. These results indicate that ghrelin is present in the stomach and plasma of the bullfrog, which can be detected with our novel antibody. Interestingly, the primary storage form of ghrelin in the stomach differed from the circulating form dominating in the plasma. Furthermore, increases in ghrelin levels in plasma and mRNA levels in the stomach after starvation suggest the possible involvement of ghrelin in energy homeostasis in the bullfrog. [Copyright &y& Elsevier]
- Published
- 2006
- Full Text
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11. Exogenous administration of octanoic acid accelerates octanoylated ghrelin production in the proventriculus of neonatal chicks
- Author
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Yamato, Maya, Sakata, Ichiro, Wada, Reiko, Kaiya, Hiroyuki, and Sakai, Takafumi
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MESSENGER RNA , *FATTY acids , *AMINO acids , *GENE expression - Abstract
Abstract: Ghrelin is modified by fatty acid at the third serine residue. In this study, derivation of fatty acid for acylation of ghrelin was investigated using a hatchling chicken model. We first studied ghrelin gene expression and production in the neonatal chick proventriculus and then investigated the effect of exogenous octanoic acid (OA) administration on acylated ghrelin production. In a free-feeding condition on day 2.5 after hatching, the density of ghrelin mRNA-expressing (ghrelin-ex) cells was greater than that of ghrelin-immunopositive (ghrelin-ip) cells, but no difference was found between those densities in adult chickens. Intraperitoneal or oral administration of OA for a few days significantly increased the density of ghrelin-ip cells without any changes in ghrelin-ex cells and elevated only octanoylated ghrelin levels in the proventriculus. The results indicate that fatty acid absorbed from food is directly utilized in acylated ghrelin production in the chicken. [Copyright &y& Elsevier]
- Published
- 2005
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12. Estrogen modulates ghrelin expression in the female rat stomach
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Matsubara, Maki, Sakata, Ichiro, Wada, Reiko, Yamazaki, Mami, Inoue, Kinji, and Sakai, Takafumi
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ESTROGEN receptors , *STEROID hormones , *LABORATORY rats , *MESSENGER RNA - Abstract
Ghrelin was recently identified as an endogenous ligand for GH secretagogue receptor. In this study, we investigated the effects of ovariectomy on the numbers of ghrelin-immunopositive and -expressing cells, ghrelin mRNA levels, and plasma ghrelin concentrations in 4- and 9-week-old female rats. Three days after ovariectomy, the number of ghrelin cells and plasma ghrelin level significantly increased in both 4- and 9-week-old rats and the ghrelin mRNA level also increased in 4-week-old rats. These responses were reversed by 17β-estradiol replacement. We also found that ghrelin-immunopositive cells express estrogen receptor α. These results suggested that estrogen is involved in the regulation of ghrelin expression. [Copyright &y& Elsevier]
- Published
- 2004
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13. Identification of ghrelin in the house musk shrew (Suncus murinus): cDNA cloning, peptide purification and tissue distribution
- Author
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Ishida, Yuko, Sakahara, Satoshi, Tsutsui, Chihiro, Kaiya, Hiroyuki, Sakata, Ichiro, Oda, Sen-ichi, and Sakai, Takafumi
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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
- Full Text
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14. House musk shrew (Suncus murinus, order: Insectivora) as a new model animal for motilin study
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Tsutsui, Chihiro, Kajihara, Kie, Yanaka, Takatsugu, Sakata, Ichiro, Itoh, Zen, Oda, Sen-ichi, and Sakai, Takafumi
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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
- Full Text
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15. Adenosine stimulates neuromedin U mRNA expression in the rat pars tuberalis.
- Author
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Aizawa, Sayaka, Gu, Tingting, Kaminoda, Arisa, Fujioka, Ryuya, Ojima, Fumiya, Sakata, Ichiro, Sakai, Takafumi, Ogoshi, Maho, Takahashi, Sumio, and Takeuchi, Sakae
- Subjects
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ADENOSINES , *RATS , *MESSENGER RNA - Abstract
Neuromedin U (NMU) shows circadian expression in the rat pars tuberalis (PT), and is known to be suppressed by melatonin. Here we examined the involvement of adenosine in the regulation of Nmu expression. We found that the rat PT expressed adenosine receptor A2b and that an adenosine receptor agonist, NECA, stimulated Nmu expression in brain slice cultures. In vitro promoter assays revealed that NECA stimulated Nmu promoter activity via a cAMP response element (CRE) in the presence of adenosine receptor A2b. NECA also increased the levels of phosphorylated CRE-binding protein. These findings suggest that adenosine stimulates Nmu expression by activating the cAMP signaling pathway through adenosine receptor A2b in the rat PT. This is the first report to demonstrate that Nmu expression in the PT is regulated by adenosine, which acts as an intravital central metabolic signal, in addition to melatonin, which acts as an external photoperiodic environmental signal. • A2b is the adenosine receptor expressed in the rat pars tuberalis (PT). • Adenosine receptor agonist NECA stimulates Neuromedin U expression in the rat PT. • NECA stimulates Neuromedin U expression by activating the cAMP pathway via A2b. • NECA promotes Neuromedin U promoter activity via the CRE homology element. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
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