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Dive into the research topics where Hiroyuki Kaiya is active.

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Featured researches published by Hiroyuki Kaiya.


Regulatory Peptides | 2005

Inhibitory effect of ghrelin on food intake is mediated by the corticotropin-releasing factor system in neonatal chicks

Ei-Suke Saito; Hiroyuki Kaiya; Tetsuya Tachibana; Shozo Tomonaga; D. Michel Denbow; Kenji Kangawa; Mitsuhiro Furuse

It is known that, in rats, central and peripheral ghrelin increases food intake mainly through activation of neuropeptide Y (NPY) neurons. In contrast, intracerebroventricular (ICV) injection of ghrelin inhibits food intake in neonatal chicks. We examined the mechanism governing this inhibitory effect in chicks. The ICV injection of ghrelin or corticotropin-releasing factor (CRF), which also inhibits feeding and causes hyperactivity in chicks. Thus, we examined the interaction of ghrelin with CRF and the hypothalamo-pituitary-adrenal (HPA) axis. The ICV injection of ghrelin increased plasma corticosterone levels in a dose-dependent or a time-dependent manner. Co-injection of a CRF receptor antagonist, astressin, attenuated ghrelin-induced plasma corticosterone increase and anorexia. In addition, we also investigated the effect of ghrelin on NPY-induced food intake and on expression of hypothalamic NPY mRNA. Co-injection of ghrelin with NPY inhibited NPY-induced increase in food intake, and the ICV injection of ghrelin did not change NPY mRNA expression. These results indicate that central ghrelin does not interact with NPY as seen in rodents, but instead inhibits food intake by interacting with the endogenous CRF and its receptor.


Comparative Biochemistry and Physiology A-molecular & Integrative Physiology | 2008

Ghrelin : A multifunctional hormone in non-mammalian vertebrates

Hiroyuki Kaiya; Mikiya Miyazato; Kenji Kangawa; Richard E. Peter; Suraj Unniappan

In mammals, ghrelin is a non-amidated peptide hormone, existing in both acylated and non-acylated forms, produced mainly from the X/A or ghrelin cells present in the mucosal layer of the stomach. Ghrelin is a natural ligand of the growth hormone (GH) secretagogue-receptor (GHS-R), and functions primarily as a GH-releasing hormone and an orexigen, as well as having several other biological actions. Among non-mammalian vertebrates, amino acid sequence of ghrelin has been reported in two species of cartilaginous fish, seven species of teleosts, two species of amphibians, one species of reptile and six species of birds. The structure and functions of ghrelin are highly conserved among vertebrates. This review presents a concise overview of ghrelin biology in non-mammalian vertebrates.


Peptides | 2006

Regulation of food intake by acyl and des-acyl ghrelins in the goldfish

Kouhei Matsuda; Tohru Miura; Hiroyuki Kaiya; Keisuke Maruyama; Sei-Ichi Shimakura; Minoru Uchiyama; Kenji Kangawa; Seiji Shioda

Our recent research has indicated that intracerebroventricular (i.c.v.) and intraperitoneal (i.p.) administration of n-octanoic acid-modified ghrelin (acyl ghrelin) stimulates food intake and locomotor activity in the goldfish. The manner in which peripherally administered acyl ghrelin regulates food intake, however, remains unclear. In contrast to acyl ghrelin, non-acylated ghrelin (des-acyl ghrelin) does not exert an orexigenic action or induce hypermotility. To this extent, the biological role of des-acyl ghrelin in fish is unknown. Given the possible involvement of afferent pathways in mediating the effects of acyl ghrelin, as is known to occur in rodents, we examined the effect of capsaicin, a neurotoxin which destroys primary sensory (vagal and splanchnic) afferents, on the orexigenic activity induced by i.p.-injected acyl ghrelin. Pretreatment with i.p.-injected capsaicin (0.16 micromol/g body weight (BW)) cancelled the orexigenic action of i.p.-injected acyl ghrelin (8 pmol/g BW), although i.p.-injected capsaicin alone did not affect food intake. The effect of des-acyl ghrelin on the orexigenic action of acyl ghrelin in the goldfish was also investigated. The i.c.v. and i.p. injection of des-acyl ghrelin at doses 3-10 times higher than that of acyl ghrelin suppressed the orexigenic action of i.c.v.- and i.p.-injected acyl ghrelin (doses of 1 and 8 pmol/g BW). In contrast, injection of des-acyl ghrelin alone did not show any inhibitory effect on food intake. These results suggest that, as is seen in rodents, circulating acyl ghrelin derived from peripheral tissues acts via primary sensory afferent pathways on feeding centers in the brain. The results also show that des-acyl ghrelin inhibits acyl ghrelin-induced orexigenic activity in goldfish.


Molecular Brain Research | 2000

Distribution of orexin/hypocretin in the rat median eminence and pituitary

Yukari Date; Muhtashan S. Mondal; Shigeru Matsukura; Yoichi Ueta; Hiroshi Yamashita; Hiroyuki Kaiya; Kenji Kangawa; Masamitsu Nakazato

We determined the distribution of orexin-A and orexin-B (also known as hypocretin-1 and hypocretin-2) and their receptors in the rat median eminence and pituitary using sensitive radioimmunoassays coupled with high-performance liquid chromatography, immunohistochemistry, and in situ hybridization. Orexin-A and -B were present in the median eminence, adenohypophysis, and neurohypophysis. Orexin fibers were abundant in the median eminence, and a few fibers projected to the neurohypophysis. Both the orexin(1)- and orexin(2)-receptor mRNAs were expressed robustly in the pituitary intermediate lobe, whereas in the anterior lobe, the orexin(1) receptor was more markedly expressed than the orexin(2) receptor. These two receptor mRNAs were also found in the posterior lobe. These findings may implicate orexins involvement in additional as yet undefined physiological functions in the hypothalamo-hypophyseal tract.


Peptides | 2007

Regulation of food intake in the goldfish by interaction between ghrelin and orexin

Tohru Miura; Keisuke Maruyama; Sei-Ichi Shimakura; Hiroyuki Kaiya; Minoru Uchiyama; Kenji Kangawa; Seiji Shioda; Kouhei Matsuda

Intracerebroventricular (ICV) administration of ghrelin, orexin and neuropeptide Y (NPY) stimulates food intake in goldfish. Orexin and NPY interact with each other in the regulation of feeding, while ghrelin-induced feeding has also shown to be mediated by NPY in the goldfish model. To investigate the interaction between ghrelin and orexin, we examined the effects of a selective orexin receptor-1 antagonist, SB334867, and a growth hormone secretagogue-receptor antagonist, [D-Lys(3)]-GHRP-6, on ghrelin- and orexin-A-induced feeding. Ghrelin-induced food intake was completely inhibited for 1h following ICV preinjection of SB334867, while [D-Lys(3)]-GHRP-6 attenuated orexin-A stimulated feeding. Furthermore, ICV administration of ghrelin or orexin-A at a dose sufficient to stimulate food intake increased the expression of each others mRNA in the diencephalon. These results indicate that, in goldfish, ghrelin and orexin-A have interacting orexigenic effects in the central nervous system. This is the first report that orexin-A-induced feeding is mediated by the ghrelin signaling in any animal model.


Neuroscience Letters | 2006

Neuropeptide Y mediates ghrelin-induced feeding in the goldfish, Carassius auratus

Tohru Miura; Keisuke Maruyama; Sei-Ichi Shimakura; Hiroyuki Kaiya; Minoru Uchiyama; Kenji Kangawa; Seiji Shioda; Kouhei Matsuda

Intracerebroventricular (ICV) and intraperitoneal (IP) administration of n-octanoic acid-modified ghrelin stimulates food intake in the goldfish. We examined the involvement of neuropeptide Y (NPY) in the orexigenic action of ghrelin using a NPY Y1-receptor antagonist, BIBP-3226. Food intake induced by ICV or IP injection of ghrelin was suppressed by ICV preinjection of BIBP-3226 for 1 h. We then examined whether ghrelin affects the expression of NPY mRNA in the goldfish brain using a real-time PCR method. ICV, but not IP, administration of ghrelin at a dose sufficient to stimulate food intake increased the expression of brain NPY mRNA obtained from 2 h after treatment. These results indicate that the orexigenic action of central ghrelin is mediated by the release of NPY in the brain with stimulating NPY synthesis, and that peripheral ghrelin also stimulates food intake via brain NPY pathway.


Neuroreport | 2001

Adrenomedullin regulates blood-brain barrier functions in vitro.

Bela Kis; Mária A. Deli; Hideyuki Kobayashi; Csongor S. Ábrahám; Toshihiko Yanagita; Hiroyuki Kaiya; Toyohi Isse; Rieko Nishi; Sadao Gotoh; Kenji Kangawa; Akihiko Wada; John Greenwood; Masami Niwa; Hiroshi Yamashita; Yoichi Ueta

Adrenomedullin (AM) is an important vasodilator in cerebral circulation, and cerebral endothelial cells are a major source of AM. This in vitro study aimed to determine the AM-induced changes in blood–brain barrier (BBB) functions. AM administration increased, whereas AM antisense oligonucleotide treatment decreased transendothelial electrical resistance. AM incubation decreased BBB permeability for sodium fluorescein (mol. wt 376 Da) but not for Evans blue albumin (mol. wt 67 kDa), and it also attenuated fluid-phase endocytosis. AM treatment resulted in functional activation of P-glycoprotein efflux pump in vitro. Our results indicate that AM as an autocrine mediator plays an important role in the regulation of BBB properties of the cerebral endothelial cells.


Peptides | 2006

Stimulatory effect of n-octanoylated ghrelin on locomotor activity in the goldfish, Carassius auratus

Kouhei Matsuda; Tohru Miura; Hiroyuki Kaiya; Keisuke Maruyama; Minoru Uchiyama; Kenji Kangawa; Seiji Shioda

Ghrelin is implicated in growth and feeding regulation in fish. The influence of ghrelin on behavior has not been well studied and the physiological role of des-fatty acid modification of this peptide is unclear. Therefore, the effects of intracerebroventricular (ICV) and intraperitoneal (IP) administration of synthetic n-octanoylated (acyl) goldfish ghrelin and des-n-octanoylated (des-acyl) ghrelin on locomotor and orexigenic activity in the goldfish were examined. ICV administration of acyl ghrelin at doses of 1 and 2 pmol/g body weight (BW) and IP administration at 16 pmol/g BW both induced significant increases in locomotor activity during for 45-60 min after treatment. Cumulative food intake was significantly increased by ICV injection of acyl ghrelin at doses of 1 and 2 pmol/g BW and IP injection at 8 and 16 pmol/g BW during the 60-min post-treatment observation period. In contrast, ICV and IP administration of des-acyl ghrelin produced no changes in locomotor and orexigenic activity. We also analyzed fasting-induced changes in the expression of ghrelin mRNA in the brain and intestine using a real-time PCR method. The level of ghrelin mRNA in the intestine, but not in the brain, obtained from fish fasted for 7 days was significantly higher than that in fish that had been fed normally. These results suggest that, in the goldfish, acyl ghrelin, but not des-acyl ghrelin, stimulates locomotor activity and enhances food intake via central and peripheral pathways.


General and Comparative Endocrinology | 2010

Ghrelin decreases food intake in juvenile rainbow trout (Oncorhynchus mykiss) through the central anorexigenic corticotropin-releasing factor system

Elisabeth Jönsson; Hiroyuki Kaiya; Björn Thrandur Björnsson

Ghrelin stimulates pituitary growth hormone (GH) release, and has a key role in the regulation of food intake and adiposity in vertebrates. To investigate the central effect of native rainbow trout ghrelin (rtghrelin) on food intake in rainbow trout, as well as its possible mode of action, four groups of fish received a single injection into the third brain ventricle (i.c.v. injection): (1) control group (physiological saline) (2) ghrelin-treated group (2.0 ng rtghrelin g bwt(-1)), (3) group given the corticotropin-releasing hormone receptor antagonist alpha-helical CRF 9-41 (ahCRF) (4.0 ng g bwt(-1)) and (4) group receiving the same dose of both ghrelin and ahCRF. Food intake was assessed 1h after treatment. In addition, the presence of the GHS-R (the ghrelin receptor) in the rainbow trout CNS was examined with Western blot. To investigate peripheral effects of ghrelin, rainbow trout received an intraperitoneal cholesterol-based implant with or without rtghrelin, and daily food intake was measured during 14 days. Weight and length were measured at the start and termination of the experiment and specific growth rates were calculated. Mesenteric fat stores, muscle and liver lipid content were analysed after the treatment period. Central ghrelin injections decreased food intake compared with controls, and treatment with ahCRF abolished the ghrelin-effect. Western blot analysis of the GHS-R revealed a single band at around 60 kDa in pituitary, hypothalamus, brain and stomach. Long-term peripheral ghrelin treatment decreased daily food intake compared with controls. This was reflected in a ghrelin-induced decrease in weight growth rate (p<0.06). There was no effect of ghrelin on plasma GH levels or tissue fat stores. The conclusion from this study is that the GHS-R is indicated in the CNS in rainbow trout and that ghrelin may act there as an anorexigenic hormone, through a CRF-mediated pathway. Elevated peripheral ghrelin levels also seem to lead to decreased feed intake in the longer term.


Regulatory Peptides | 2003

Existence of ghrelin-immunopositive and -expressing cells in the proventriculus of the hatching and adult chicken

Reiko Wada; Ichiro Sakata; Hiroyuki Kaiya; Kazuaki Nakamura; Yujiro Hayashi; Kenji Kangawa; Takafumi Sakai

Ghrelin was isolated from the rat stomach as an endogenous ligand for the growth hormone secretagogue receptor (GHS-R) and has been found in the gastrointestinal tract of many vertebrates. Although the sequence and structure of chicken ghrelin has recently been determined, morphological characteristics of ghrelin cells in the chicken gastrointestinal tract are still obscure. In this study, we investigated ghrelin expression and distribution of ghrelin-producing cells in the hatching and adult chicken gastrointestinal tract by RT-PCR, immunohistochemistry and in situ hybridization. Ghrelin mRNA expression was observed mainly in the proventriculus in the hatching chicken and in the proventriculus, pylorus and duodenum of the adult chicken by RT-PCR. Ghrelin-immunopositive (ghrelin-ip) cells in the proventriculus were located at the mucosal layer but not in the myenteric plexus or smooth muscle layer. The number of ghrelin-ip cells in the adult chicken was greater than that in the hatching chicken. Interestingly, in the adult chicken, the number of ghrelin-ip cells were almost the same as that of ghrelin mRNA-expressing (ghrelin-ex) cells; however, in the hatching chicken, the number of ghrelin-ex cells was greater than that of ghrelin-ip cells. These results clearly demonstrate that ghrelin-producing cells exist in the chicken gastrointestinal tract, especially in the proventriculus, from hatching to adult stages of development, as well as in mammals.

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Mikiya Miyazato

Takeda Pharmaceutical Company

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Takio Kitazawa

Rakuno Gakuen University

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