Your search keyword '"Atsukazu Kuwahara"' showing total 145 results

1. The effect of Xenin25 on spontaneous circular muscle contractions of rat distal colon in vitro

Author

Yuko Kuwahara, Ikuo Kato, Toshio Inui, Yoshinori Marunaka, and Atsukazu Kuwahara

Subjects

enteric nervous system, intestinal motility, smooth muscle cell, Xenin25, Physiology, QP1-981

Abstract

Abstract Xenin25 has a variety of physiological functions in the Gastrointestinal (GI) tract, including ion transport and motility. However, the motility responses in the colon induced by Xenin25 remain poorly understood. Therefore, the effect of Xenin25 on the spontaneous circular muscle contractions of the rat distal colon was investigated using organ bath chambers and immunohistochemistry. Xenin25 induced the inhibition followed by postinhibitory spontaneous contractions with a higher frequency in the rat distal colon. This inhibitory effect of Xenin25 was significantly suppressed by TTX but not by atropine. The inhibitory time (the duration of inhibition) caused by Xenin25 was shortened by the NTSR1 antagonist SR48692, the NK1R antagonist CP96345, the VPAC2 receptor antagonist PG99‐465, the nitric oxide‐sensitive guanylate‐cyclase inhibitor ODQ, and the Ca2+‐dependent K+ channel blocker apamin. The higher frequency of postinhibitory spontaneous contractions induced by Xenin25 was also attenuated by ODQ and apamin. SP‐, NOS‐, and VIP‐immunoreactive neurons were detected in the myenteric plexus (MP) of the rat distal colon. Small subsets of the SP‐positive neurons were also Calbindin positive. Most of the VIP‐positive neurons were also NOS positive, and small subsets of the NK1R‐positive neurons were also VIP positive. Based on the present results, we propose the following mechanism. Xenin25 activates neuronal NTSR1 on the SP neurons of IPANs, and transmitters from the VIP and apamin‐sensitive NO neurons synergistically inhibit the spontaneous circular muscle contractions via NK1R. Subsequently, the postinhibitory spontaneous contractions are induced by the offset of apamin‐sensitive NO neuron activation via the interstitial cells of Cajal. In addition, Xenin25 also activates the muscular NTSR1 to induce relaxation. Thus, Xenin25 is considered to be an important modulator of post prandial circular muscle contraction of distal colon since the release of Xenin25 from enteroendocrine cells is stimulated by food intake.

Published

2021

2. Correction: The effects of intra-stomach obestatin administration on intestinal contractility in neonatal piglets fed milk formula.

Author

Monika Słupecka-Ziemilska, Paulina Szczurek, Maria Boryczka, Małgorzata Gajewska, Piotr Wychowański, Atsukazu Kuwahara, Ikuo Kato, Żaneta Dzięgelewska, and Jarosław Woliński

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0230190.].

Published

2020

3. The effects of intra-stomach obestatin administration on intestinal contractility in neonatal piglets fed milk formula.

Author

Monika Słupecka-Ziemilska, Paulina Szczurek, Maria Boryczka, Małgorzata Gajewska, Piotr Wychowański, Atsukazu Kuwahara, Ikuo Kato, Żaneta Dzięgelewska, and Jarosław Woliński

Subjects

Medicine, Science

Abstract

A 23-amino acid peptide named obestatin is derived from the ghrelin gene. The aim of the experiment was to study the effects of enteral obestatin administration for a 6-day period on intestinal contractility in piglets fed milk formula. Pigs were treated with 0.9% NaCl (group C) or varying doses of obestatin: 2 μg/kg body weight (BW) (group O2), 10 μg/kg BW (O10) or 15 μg/kg BW (O15) every 8 hours via a stomach tube. Blood was sampled for assessment of obestatin concentration. Duodenal and middle jejunum whole-thickness preparations were studied in an organ bath for isometric recording under electric field stimulation (EFS) and increasing doses of acetylcholine (ACh), and in the presence of atropine and tetrodotoxin (TTX). Additionally, the measurement of intestinal muscularis layer and the immunodetection of Muscarinic Acetylcholine Receptors (M1 and M2) were performed. In comparison to C animals, the obestatin concentration in blood plasma was significantly increased in groups O10 and O15. In both studied intestinal segments, significant increases in the frequency and amplitude of spontaneous contractions were observed in O15 and C groups. In the duodenum and middle jejunum significant differences in responsiveness to EFS (0.5, 5 and 50 Hz) were observed between the groups. The addition of 10-4 M ACh to the duodenum significantly increased the responsiveness in tissues. In contrast, in the middle jejunum a significant increase in the amplitude of contraction was observed after the addition of 10-9 and 10-6 M ACh (groups O15 and O10, respectively). Pretreatment with atropine and TTX resulted in a significant decrease in the responsiveness of the intestinal preparations from all groups, in both studied segments. The increased contractility was not dependent on the expression of muscarinic receptors. Results indicate the importance of enteral obestatin administration in the regulation of intestinal contractility in neonatal piglets.

Published

2020

4. Improvement of Diabetes Mellitus Symptoms by Intake of Ninjin'yoeito

Author

Shigekuni Hosogi, Masahiro Ohsawa, Ikuo Kato, Atsukazu Kuwahara, Toshio Inui, Akio Inui, and Yoshinori Marunaka

Subjects

Ninjin'yoeito, diabetes mellitus, interstitial pH, insulin resistance, serum glucose, streptozotocin (STZ), Nutrition. Foods and food supply, TX341-641

Abstract

Diabetes mellitus is a well-known common disease and one of the most serious social problems in the worldwide. Although various types of drugs are developed, the number of patients suffering from diabetes mellitus is still increasing. Ninjin'yoeito (NYT) is one of formulas used in Japanese traditional herbal medicines for improving various types of metabolic disorders. However, the effect of NYT on diabetes mellitus has not yet been investigated. In the present study, we tried to clarify the action of NYT on the serum glucose level in streptozotocin (STZ)-induced diabetic mice. We found that intake of NYT decreased the serum glucose level and increased insulin sensitivity in STZ-induced diabetic mice. NYT treatment also improved acidification of the interstitial fluid around skeletal muscles found in STZ-induced diabetic mice, while the interstitial fluid acidification has been reported to cause insulin resistance. Furthermore, in the proximal colon of STZ-induced diabetic mice, NYT treatment showed a tendency to increase the expression of sodium-coupled monocarboxylate transporter 1 (SMCT1), which has ability to absorb weak organic acids (pH buffer molecules) resulting in improvement of the interstitial fluid acidification. Based on these observations, the present study suggests that NYT is a useful formula to improve hyperglycemia and insulin resistance via elevation of interstitial fluid pH in diabetes mellitus, which might be caused by increased absorption of pH buffer molecules (SMCT1 substrates, weak organic acids) mediated through possibly elevated SMCT1 expression in the proximal colon.

Published

2018

5. Small intestinal development in suckling rats after enteral obestatin administration.

Author

Monika Słupecka-Ziemilska, Paulina Grzesiak, Michał Jank, Alicja Majewska, Agnieszka Rak, Paweł Kowalczyk, Ikuo Kato, Atsukazu Kuwahara, and Jarosław Woliński

Subjects

Medicine, Science

Abstract

This study investigated the effect of enteral administration of obestatin on the development of small intestine, as well as oxidative stress markers and trancriptomic profile of gastrointestinal genes. Suckling rats were assigned to 3 groups treated with: C-saline solution; OL-obestatin (125 nmol/kg BW); OH-obestatin (250 nmol/kg BW) administered twice daily, from the 14th to the 21st day of life. Enteral administration of obestatin in both studied doses had no effect neither on the body weight of animals nor the BMI calculated in the day of euthanasia. Compared to the control group (C), treatment with obestatin resulted in significant changes in the histometry of the small intestinal wall as well as intestinal epithelial cell remodeling. The observed changes and their possible implications for intestinal development were dependent on the dosage of peptide. The enteral administration of high dose (OH) of obestatin significantly decreased its expression in the stomach and increased markers of oxidative stress. The gene profile revealed MAPK3 (mitogen-activated protein kinase-3) as the key regulator gene for obestatin action in the gastrointestinal track. In conclusion, we have showed that enteral administration of obestatin influences the gut mucosa remodeling. It is also suggested that the administration of high dose (OH) has inhibitory effect on the intestinal maturation of suckling rats.

Published

2018

6. Regulation of Ion Transport in the Intestine by Free Fatty Acid Receptor 2 and 3: Possible Involvement of the Diffuse Chemosensory System

Author

Atsukazu Kuwahara, Yuko Kuwahara, Toshio Inui, and Yoshinori Marunaka

Subjects

diffuse chemosensory system (DCS), short-chain fatty acid (SCFA), free fatty acid receptor 2 (FFA2), free fatty acid receptor 3 (FFA3), enteroendocrine cell (EEC), intestine, chloride secretion, bicarbonate secretion, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The diffuse chemosensory system (DCS) is well developed in the apparatuses of endodermal origin like gastrointestinal (GI) tract. The primary function of the GI tract is the extraction of nutrients from the diet. Therefore, the GI tract must possess an efficient surveillance system that continuously monitors the luminal contents for beneficial or harmful compounds. Recent studies have shown that specialized cells in the intestinal lining can sense changes in the luminal content. The chemosensory cells in the GI tract belong to the DCS which consists of enteroendocrine and related cells. These cells initiate various important local and remote reflexes. Although neural and hormonal involvements in ion transport in the GI tract are well documented, involvement of the DCS in the regulation of intestinal ion transport is much less understood. Since activation of luminal chemosensory receptors is a primary signal that elicits changes in intestinal ion transport and motility and failure of the system causes dysfunctions in host homeostasis, as well as functional GI disorders, study of the regulation of GI function by the DCS has become increasingly important. This review discusses the role of the DCS in epithelial ion transport, with particular emphasis on the involvement of free fatty acid receptor 2 (FFA2) and free fatty acid receptor 3 (FFA3).

Published

2018

7. Mumefural prevents insulin resistance and amyloid-beta accumulation in the brain by improving lowered interstitial fluid pH in type 2 diabetes mellitus

Author

Shigekuni Hosogi, Atsukazu KUWAHARA, Yuko KUWAHARA, Saori TANAKA, Chikao SHIMAMOTO, Noriko TAGAWA, Ikuo KATO, Kanji YOSHIMOTO, Wataru AOI, Kazuyuki TAKATA, Hiroaki MIYAZAKI, Naomi NIISATO, Yasuhiro TSUBO, Katsumi YAGI, Takashi NAKAHARI, and Yoshinori MARUNAKA

Subjects

General Medicine, General Biochemistry, Genetics and Molecular Biology

Published

2023

8. Secondary bile acid lithocholic acid attenuates neurally evoked ion transport in the rat distal colon

Author

Kohei, Takahashi, Yuko, Kuwahara, Ikuo, Kato, Shinji, Asano, Takaharu, Kozakai, Yoshinori, Marunaka, and Atsukazu, Kuwahara

Subjects

General Medicine, General Biochemistry, Genetics and Molecular Biology

Abstract

The inhibitory action of the secondary bile acid lithocholic acid (LCA) on neurally evoked Cl

Published

2022

9. GLP-2 Acutely Prevents Endotoxin-Related Increased Intestinal Paracellular Permeability in Rats

Author

Takeshi Takajo, Ikuo Kato, Hyder Said, Yasutada Akiba, Jonathan D. Kaunitz, Koji Maruta, Emi Irie, and Atsukazu Kuwahara

Subjects

Lipopolysaccharides, Male, Time Factors, Lipopolysaccharide, Physiology, Vasoactive intestinal peptide, Pharmacology, Small, Rats, Sprague-Dawley, chemistry.chemical_compound, 0302 clinical medicine, Intestine, Small, Glucagon-Like Peptide 2, Portal Vein, digestive, oral, and skin physiology, Gastroenterology, Teduglutide, Dextrans, Hematology, Proglucagon, Receptor antagonist, Intestine, 5.1 Pharmaceuticals, 030220 oncology & carcinogenesis, Paracellular transport, Glucagon-Like Peptide-2 Receptor, Intestinal paracellular permeability, lipids (amino acids, peptides, and proteins), 030211 gastroenterology & hepatology, Development of treatments and therapeutic interventions, Inflammation Mediators, Fluorescein-5-isothiocyanate, medicine.drug_class, Clinical Sciences, Article, Permeability, Proinflammatory cytokine, Vaccine Related, 03 medical and health sciences, Biodefense, medicine, Animals, Gastroenterology & Hepatology, Animal, Prevention, Antagonist, Nitric oxide, Endotoxemia, Rats, Disease Models, Animal, Intestinal Absorption, chemistry, Disease Models, Sprague-Dawley, Peptides

Abstract

BackgroundCirculating endotoxin (lipopolysaccharide, LPS) increases the gut paracellular permeability. We hypothesized that glucagon-like peptide-2 (GLP-2) acutely reduces LPS-related increased intestinal paracellular permeability by a mechanism unrelated to its intestinotrophic effect.MethodsWe assessed small intestinal paracellular permeability in vivo by measuring the appearance of intraduodenally perfused FITC-dextran 4000 (FD4) into the portal vein (PV) in rats 1-24h after LPS treatment (5mg/kg, ip). We also examined the effect of a stable GLP-2 analog teduglutide (TDG) on FD4 permeability.ResultsFD4 movement into the PV was increased 6h, but not 1 or 3h after LPS treatment, with increased PV GLP-2 levels and increased mRNA expressions of proinflammatory cytokines and proglucagon in the ileal mucosa. Co-treatment with a GLP-2 receptor antagonist enhanced PV FD4 concentrations. PV FD4 concentrations 24h after LPS were higher than FD4 concentrations 6h after LPS, reduced by exogenous GLP-2 treatment given 6 or 12h after LPS treatment. FD4 uptake measured 6h after LPS was reduced by TDG 3 or 6h after LPS treatment. TDG-associated reduced FD4 uptake was reversed by the VPAC1 antagonist PG97-269 or L-NAME, not by EGF or IGF1 receptor inhibitors.ConclusionsSystemic LPS releases endogenous GLP-2, reducing LPS-related increased permeability. The therapeutic window of exogenous GLP-2 administration is at minimum within 6-12h after LPS treatment. Exogenous GLP-2 treatment is of value in the prevention of increased paracellular permeability associated with endotoxemia.

Published

2020

10. Influence of obestatin on the histological development of the small intestine in piglets during the first week of postnatal life

Author

B. Seklecka, Ikuo Kato, Maria Boryczka, O. Drahanchuk, Monika Słupecka-Ziemilska, Kamil Zaworski, P. Wychowański, Stefan Pierzynowski, J. Woliński, Atsukazu Kuwahara, Paulina Szczurek, and Kateryna Pierzynowska

Subjects

medicine.medical_specialty, Mitotic index, Duodenum, Swine, Crypt, Ileum, Biology, SF1-1100, Intestinal mucosa, Internal medicine, Intestine, Small, medicine, Animals, Intestinal Mucosa, Gastrointestinal tract, maturation, Obestatin, Ghrelin, Small intestine, Animal culture, Jejunum, medicine.anatomical_structure, Endocrinology, Animals, Newborn, obestatin, enterocytes, Animal Science and Zoology, neonatal piglets

Abstract

Obestatin is a gastrointestinal peptide having wide-ranging effects on cell proliferation; however, its mechanism of action remains poorly understood. Thus, the aim of the study was to elucidate the effect of exogenous obestatin on the postnatal structural development of the small intestine. Seven-day-old piglets with an average BW of 1.56 ± 0.23 kg were divided into four groups (n = 10) that received intragastrically obestatin (2, 10 or 15 μg/kg BW) or vehicle. After a 6-day experimental period, morphological analysis of gastrointestinal tract and small intestine wall (mitosis and apoptosis indexes, histomorphometry of mucosa and muscularis layers) was performed. The study revealed a seemingly incoherent pattern of the histological structure of the small intestine among the experimental groups, suggesting that the effect of obestatin is both intestinal segment specific and dose dependent. Histomorphometric analysis of the small intestine showed that higher doses of obestatin seem to promote the structural development of the duodenum while simultaneously hindering the maturation of more distal parts of the intestine. Intragastric administration of obestatin increased the crypt mitotic index in all segments of the small intestine with the strongest pro-mitotic activity following the administration of obestatin at a dose of 10 and 15 μg/kg BW. The significant differences in the number of apoptotic cells in the intestinal villi among the groups were observed only in proximal jejunum and ileum. In conclusion, it seems that obestatin shows a broad-spectrum of activity in the gastrointestinal tract of newborn piglets, being able to accelerate its structural development. However, the varied effect depending on the intestinal segment or the concentration of exogenous obestatin causes that further research is needed to clarify the exact mechanism of this phenomenon.

Published

2020

11. Minimum biological domain of xenin-25 required to induce anion secretion in the rat ileum

Author

Miho Akai, Atsukazu Kuwahara, Takaharu Kozakai, Ikuo Kato, Toshio Inui, Yoshinori Marunaka, Kohei Takahashi, Shinji Asano, and Yuko Kuwahara

Subjects

Anions, Male, Physiology, Ileum, Xenin, Biochemistry, Pentapeptide repeat, Rats, Sprague-Dawley, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Endocrinology, Protein Domains, medicine, Animals, Receptors, Neurotensin, Neurotensin receptor, Ion transporter, Neurotensin, Ussing chamber, Biological activity, Cell biology, medicine.anatomical_structure, chemistry, Quinolines, Pyrazoles

Abstract

Xenin-25 has a variety of physiological functions in the gastrointestinal tract, including ion transport and motility. Xenin-25 and neurotensin show sequence homology, especially near their C-terminal regions. The sequence similarity between xenin-25 and neurotensin indicates that the effects of xenin-25 is mediated by the neurotensin receptor but some biological actions of xenin-25 are independent. We have previously reported that xenin-25 modulates intestinal ion transport and colonic smooth muscle activity. However, minimal biological domain of xenin-25 to induce ion transport was not clear. To improve the mechanistic understanding of xenin-25 and to gain additional insights into the functions of xenin-25, the present study was designed to determine the minimal biological domain of xenin-25 required for ion transport in the rat ileum using various truncated xenin fragments and analogues in an Ussing chamber system. The present results demonstrate that the minimum biological domain of xenin-25 to induce Cl-/HCO3- secretion in the ileum contains the C-terminal pentapeptide. Furthermore, Arg at position 21 is important to retain the biological activity of xenin-25 and induces Cl-/HCO3- secretion in the rat ileum.

Published

2021

12. The effect of Xenin25 on spontaneous circular muscle contractions of rat distal colon in vitro

Author

Yoshinori Marunaka, Toshio Inui, Atsukazu Kuwahara, Yuko Kuwahara, and Ikuo Kato

Subjects

Male, medicine.medical_specialty, intestinal motility, Physiology, Colon, Motility, 030204 cardiovascular system & hematology, In Vitro Techniques, Substance P, Apamin, Inhibitory postsynaptic potential, lcsh:Physiology, Xenin25, Rats, Sprague-Dawley, 03 medical and health sciences, symbols.namesake, chemistry.chemical_compound, 0302 clinical medicine, enteric nervous system, Gastrointestinal Agents, Physiology (medical), Internal medicine, Nitrergic Neurons, medicine, Animals, Receptors, Neurotensin, Channel blocker, Muscle, Skeletal, Myenteric plexus, Neurotensin, smooth muscle cell, lcsh:QP1-981, Neural Inhibition, Original Articles, Interstitial cell of Cajal, medicine.anatomical_structure, Endocrinology, chemistry, symbols, Enteric nervous system, Original Article, Neuron, Gastrointestinal Motility, 030217 neurology & neurosurgery, Muscle Contraction, Vasoactive Intestinal Peptide

Abstract

Xenin25 has a variety of physiological functions in the Gastrointestinal (GI) tract, including ion transport and motility. However, the motility responses in the colon induced by Xenin25 remain poorly understood. Therefore, the effect of Xenin25 on the spontaneous circular muscle contractions of the rat distal colon was investigated using organ bath chambers and immunohistochemistry. Xenin25 induced the inhibition followed by postinhibitory spontaneous contractions with a higher frequency in the rat distal colon. This inhibitory effect of Xenin25 was significantly suppressed by TTX but not by atropine. The inhibitory time (the duration of inhibition) caused by Xenin25 was shortened by the NTSR1 antagonist SR48692, the NK1R antagonist CP96345, the VPAC2 receptor antagonist PG99‐465, the nitric oxide‐sensitive guanylate‐cyclase inhibitor ODQ, and the Ca2+‐dependent K+ channel blocker apamin. The higher frequency of postinhibitory spontaneous contractions induced by Xenin25 was also attenuated by ODQ and apamin. SP‐, NOS‐, and VIP‐immunoreactive neurons were detected in the myenteric plexus (MP) of the rat distal colon. Small subsets of the SP‐positive neurons were also Calbindin positive. Most of the VIP‐positive neurons were also NOS positive, and small subsets of the NK1R‐positive neurons were also VIP positive. Based on the present results, we propose the following mechanism. Xenin25 activates neuronal NTSR1 on the SP neurons of IPANs, and transmitters from the VIP and apamin‐sensitive NO neurons synergistically inhibit the spontaneous circular muscle contractions via NK1R. Subsequently, the postinhibitory spontaneous contractions are induced by the offset of apamin‐sensitive NO neuron activation via the interstitial cells of Cajal. In addition, Xenin25 also activates the muscular NTSR1 to induce relaxation. Thus, Xenin25 is considered to be an important modulator of post prandial circular muscle contraction of distal colon since the release of Xenin25 from enteroendocrine cells is stimulated by food intake., Effects of 10–7 M Xenin25 on the spontaneous circular muscle contractions of the rat distal colon.

Published

2021

13. Microbiota-gut-brain axis: enteroendocrine cells and the enteric nervous system form an interface between the microbiota and the central nervous system

Author

Shinji Asano, Kyoko Matsuda, Yuko Kuwahara, Yoshinori Marunaka, Atsukazu Kuwahara, and Toshio Inui

Subjects

0301 basic medicine, Central Nervous System, Enteroendocrine Cells, Central nervous system, Gut–brain axis, Enteroendocrine cell, Gut flora, Anxiety, Ligands, digestive system, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Enteric Nervous System, Bile Acids and Salts, 03 medical and health sciences, Paracrine signalling, 0302 clinical medicine, medicine, Endocrine system, Animals, Humans, biology, Depression, digestive, oral, and skin physiology, Brain, General Medicine, biology.organism_classification, Immunohistochemistry, Gastrointestinal Microbiome, Gastrointestinal Tract, Autonomic nervous system, 030104 developmental biology, medicine.anatomical_structure, Enteric nervous system, Neuroscience, 030217 neurology & neurosurgery

Abstract

The microbiota-gut-brain axis transmits bidirectional communication between the gut and the central nervous system and links the emotional and cognitive centers of the brain with peripheral gut functions. This communication occurs along the axis via local, paracrine, and endocrine mechanisms involving a variety of gut-derived peptide/amine produced by enteroendocrine cells. Neural networks, such as the enteric nervous system, and the central nervous system, including the autonomic nervous system, also transmit information through the microbiota-gut-brain axis. Recent advances in research have described the importance of the gut microbiota in influencing normal physiology and contributing to disease. We are only beginning to understand this bidirectional communication system. In this review, we summarize the available data supporting the existence of these interactions, highlighting data related to the contribution of enteroendocrine cells and the enteric nervous system as an interface between the gut microbiota and brain.

Published

2020

14. Lipopolysaccharides transport during fat absorption in rodent small intestine

Author

Ikuo Kato, Koji Maruta, Kazuyuki Narimatsu, Hyder Said, Jonathan D. Kaunitz, Yasutada Akiba, Atsukazu Kuwahara, and Takeshi Takajo

Subjects

Lipopolysaccharides, Male, Physiology, Fats, Rats, Sprague-Dawley, chemistry.chemical_compound, Mice, Gastrointestinal Agents, In vivo, Physiology (medical), Intestine, Small, medicine, Animals, Humans, Transcellular, Fluorescein isothiocyanate, Hepatology, digestive, oral, and skin physiology, Gastroenterology, Biological Transport, Molecular biology, Small intestine, Rats, Mice, Inbred C57BL, Toll-Like Receptor 4, medicine.anatomical_structure, HEK293 Cells, chemistry, Paracellular transport, lipids (amino acids, peptides, and proteins), Lymph, Peptides, Intracellular, Chylomicron, Research Article

Abstract

Lipopolysaccharides (LPS) are potent pro-inflammatory molecules that enter the systemic circulation from the intestinal lumen by uncertain mechanisms. We investigated these mechanisms and the effect of exogenous glucagon-like peptide-2 (GLP-2) on LPS transport in the rodent small intestine. Transmucosal LPS transport was measured in Ussing-chambered rat jejunal mucosa. In anesthetized rats, the appearance of fluorescein isothiocyanate (FITC)-LPS into the portal vein (PV) and the mesenteric lymph was simultaneously monitored after intraduodenal perfusion of FITC-LPS with oleic acid and taurocholate (OA/TCA). In vitro, luminally applied LPS rapidly appeared in the serosal solution only with luminal OA/TCA present, inhibited by the lipid raft inhibitor methyl-β-cyclodextrin (MβCD) and the CD36 inhibitor sulfosuccinimidyl oleate (SSO), or by serosal GLP-2. In vivo, perfusion of FITC-LPS with OA/TCA rapidly increased FITC-LPS appearance into the PV, followed by a gradual increase of FITC-LPS into the lymph. Rapid PV transport was inhibited by the addition of MβCD or by SSO, whereas transport into the lymph was inhibited by chylomicron synthesis inhibition. Intraveous injection of the stable GLP-2 analog teduglutide acutely inhibited FITC-LPS transport into the PV, yet accelerated FITC-LPS transport into the lymph via N(ω)-nitro-l-arginine methyl ester (l-NAME)- and PG97–269-sensitive mechanisms. In vivo confocal microscopy in mouse jejunum confirmed intracellular FITC-LPS uptake with no evidence of paracellular localization. This is the first direct demonstration in vivo that luminal LPS may cross the small intestinal barrier physiologically during fat absorption via lipid raft- and CD36-mediated mechanisms, followed by predominant transport into the PV, and that teduglutide inhibits LPS uptake into the PV in vivo. NEW & NOTEWORTHY We report direct in vivo confirmation of transcellular lipopolysaccharides (LPS) uptake from the intestine into the portal vein (PV) involving CD36 and lipid rafts, with minor uptake via the canonical chylomicron pathway. The gut hormone glucagon-like peptide-2 (GLP-2) inhibited uptake into the PV. These data suggest that the bulk of LPS absorption is via the PV to the liver, helping clarify the mechanism of LPS transport into the PV as part of the “gut-liver” axis. These data do not support the paracellular transport of LPS, which has been implicated in the pathogenesis of the “leaky gut” syndrome.

Published

2020

15. The effects of viable and non-viable Lactobacillus gasseri CP2305 cells on colonic ion transport and corticotropin releasing factor-induced diarrhea

Author

Tomonori Sugawara, Atsukazu Kuwahara, Daisuke Sawada, Shin-ichiro Karaki, and Izumi Kaji

Subjects

0301 basic medicine, Diarrhea, Male, Colon, Corticotropin-Releasing Hormone, Rectum, Pharmacology, Lactobacillus gasseri, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Medicine, Animals, Viability assay, Gram-Positive Bacterial Infections, Ion Transport, biology, Ussing chamber, business.industry, Gastrointestinal Physiology, General Medicine, biology.organism_classification, Lactic acid, Rats, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, chemistry, medicine.symptom, business, 030217 neurology & neurosurgery, Bacteria

Abstract

The effect of non-viable lactic acid bacteria on gastrointestinal physiology and dysfunction remains still unclear. Previous clinical trials have reported that Lactobacillus gasseri CP2305 (CP2305) exerts stress-relieving and anti-flatulent effects regardless of cell viability. In this study, we investigated the effect of viable and non-viable CP2305 cells on electrical field stimulation (EFS)-evoked increases in short-circuit current (Isc) using the Ussing chamber technique. In mucosal-submucosal preparations of rats, both viable and non-viable CP2305 cells significantly and acutely inhibited the EFS-evoked increases in Isc in the middle and distal colon and rectum but not in proximal colon. The inhibition of EFS-evoked Isc differed from strain to strain. Peripheral injection of corticotropin releasing factor (CRF) is known to mimic diarrhea symptoms in rats. Therefore, we examined the chronic effects of CP2305 cells on CRF-induced diarrhea in the rat model. Treatment with viable and non-viable CP2305 cells significantly improved CRF-induced diarrhea in the rat model. However, the treatment did not affect the fecal pellet output. These findings suggest that CP2305 has an important role in gastrointestinal physiology and dysfunction.

Published

2019

16. Exogenous obestatin affects pancreatic enzyme secretion in rat through two opposite mechanisms, direct inhibition and vagally-mediated stimulation

Author

Romuald Zabielski, Małgorzata Kapica, Hanna Antushevich, Ikuo Kato, Iwona Puzio, and Atsukazu Kuwahara

Subjects

chemistry.chemical_classification, medicine.medical_specialty, biology, Stimulation, Obestatin, Enzyme assay, chemistry.chemical_compound, Enzyme, Endocrinology, medicine.anatomical_structure, chemistry, Capsaicin, Internal medicine, Pancreatic juice, biology.protein, medicine, Animal Science and Zoology, Secretion, Pancreas, Food Science

Published

2018

17. The influence of enteral obestatin administration to suckling rats on intestinal contractility

Author

J. Kwiatkowski, Monika Słupecka, Małgorzata Gajewska, J. Wolinski, Atsukazu Kuwahara, Ikuo Kato, and Paulina Grzesiak

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Cell Count, Tetrodotoxin, Biology, Enteral administration, Jejunum, Contractility, 03 medical and health sciences, symbols.namesake, Enteral Nutrition, Endocrinology, Internal medicine, Muscarinic acetylcholine receptor, medicine, Animals, Receptor, Muscarinic M2, Obestatin, Interstitial Cells of Cajal, Acetylcholine, Electric Stimulation, Ghrelin, Small intestine, Rats, Interstitial cell of Cajal, Intestines, Proto-Oncogene Proteins c-kit, 030104 developmental biology, medicine.anatomical_structure, Duodenum, symbols, Female, Animal Science and Zoology, Gastrointestinal Motility, Muscle Contraction

Abstract

This study investigated the effect of enteral administration of obestatin on the contractility of whole-thickness preparations of duodenum and middle jejunum, as well as on the morphology of the enteric nervous system (ENS). Suckling rats were assigned to 3 groups (n=12) treated with: C-saline solution; LO-obestatin (125nmol/kgb.wt); HO-obestatin (250nmol/kgb.wt). Saline solution or obestatin were administered twice daily, from the 14th to the 21st day of life. Sections were studied in an organ bath, for isometric recording in the presence of acetylocholine (ACh), atropine (ATR) and tetradotoxin (TTX). Thickness of intestinal muscularis layer, the number of interstitial cells of Cajal (ICC) were measured in the paraffin sections. The immunodetection of Muscarinic Acetylocholine Receptor 2 (M2 receptor) was performed in the intestinal segments. In both intestinal segments HO treatment decreased the amplitude of spontaneous contraction compared to that observed in the C group. In the middle jejunum, the LO treatment also decreased the amplitude. TTX and ATR had no effect on amplitude of spontaneous contraction in the jejunum of LO and HO-treated animals. Compared to the C group, duodenal sections from HO animals and middle jejunum sections from LO and HO groups displayed a lower amplitude in response to ACh and EFS evoked contraction. An increase in the thickness of the muscularis layer was observed in the duodenum of LO and HO groups whereas the number ICC did not change significantly after treatment with obestatin. Moreover, the enteral administration of obestatin did not effect significantly on the cytoplasmic expression of M2 receptor in the jejunum. Our study demonstrated that enteral administration of obestatin to suckling rats influences small intestine contractility in the segment specific manner.

Published

2017

18. Xenin-25 induces anion secretion by activating noncholinergic secretomotor neurons in the rat ileum

Author

Yoshinori Marunaka, Toshio Inui, Daiki Harata, Ikuo Kato, Shinji Asano, Atsukazu Kuwahara, Kotoku Kawaguchi, and Yuko Kuwahara

Subjects

0301 basic medicine, Anions, Physiology, Receptors, Vasoactive Intestinal Polypeptide, Type I, Ileum, Secretomotor, Xenin, Rat Small Intestine, Enteric Nervous System, Gastrointestinal Hormones, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Neural Pathways, medicine, Animals, Receptors, Neurotensin, Secretion, Intestinal Mucosa, Neurotensin, Hepatology, Chemistry, Vasoactive intestinal peptide receptor, Gastroenterology, Cell biology, Rats, 030104 developmental biology, medicine.anatomical_structure, Enteric nervous system, 030217 neurology & neurosurgery

Abstract

Xenin-25 is a neurotensin-like peptide that is secreted by enteroendocrine cells in the small intestine. Xenin-8 is reported to augment duodenal anion secretion by activating afferent neural pathways. The intrinsic neuronal circuits mediating the xenin-25-induced anion secretion were characterized using the Ussing-chambered, mucosa-submucosa preparation from the rat ileum. Serosal application of xenin-25 increased the short-circuit current in a concentration-dependent manner. The responses were abolished by the combination of Cl−-free and [Formula: see text]-free solutions. The responses were almost completely blocked by TTX (10−6M) but not by atropine (10−5M) or hexamethonium (10−4M). The selective antagonists for neurotensin receptor 1 (NTSR1), neurokinin 1 (NK1), vasoactive intestinal polypeptide (VIP) receptors 1 and 2 (VPAC1 and VPAC2, respectively), and capsaicin, but not 5-hydroxyltryptamine receptors 3 and 4 (5-HT3and 5-HT4), NTSR2, and A803467, inhibited the responses to xenin-25. The expression of VIP receptors ( Vipr) in rat ileum was examined using RT-PCR. The Vipr1 PCR products were detected in the submucosal plexus and mucosa. Immunohistochemical staining showed the colocalization of NTSR1 and NK1 with substance P (SP)- and calbindin-immunoreactive neurons in the submucosal plexus, respectively. In addition, NK1 was colocalized with noncholinergic VIP secretomotor neurons. Based on the results from the present study, xenin-25-induced Cl−/[Formula: see text] secretion is involved in NTSR1 activation on intrinsic and extrinsic afferent neurons, followed by the release of SP and subsequent activation of NK1 expressed on noncholinergic VIP secretomotor neurons. Finally, the secreted VIP may activate VPAC1 on epithelial cells to induce Cl−/[Formula: see text] secretion in the rat ileum. Activation of noncholinergic VIP secretomotor neurons by intrinsic primary afferent neurons and extrinsic afferent neurons by postprandially released xenin-25 may account for most of the neurogenic secretory response induced by xenin-25.NEW & NOTEWORTHY This study is the first to investigate the intrinsic neuronal circuit responsible for xenin-25-induced anion secretion in the rat small intestine. We have found that nutrient-stimulated xenin-25 release may activate noncholinergic vasoactive intestinal polypeptide (VIP) secretomotor neurons to promote Cl−/[Formula: see text] secretion through the activation of VIP receptor 1 on epithelial cells. Moreover, the xenin-25-induced secretory responses are mainly linked with intrinsic primary afferent neurons, which are involved in the activation of neurotensin receptor 1 and neurokinin 1 receptor.

Published

2019

19. Action of pituitary adenylate cyclase-activating polypeptide on ion transport in guinea pig distal colon

Author

Atsukazu Kuwahara, Yuko Kuwahara, Toru Mochizuki, and Noboru Yanaihara

Subjects

Polypeptides -- Research, Adenylate cyclase -- Research, Electrophysiology -- Research, Colon (Anatomy) -- Physiological aspects, Ion channels -- Research, Biological transport, Active -- Regulation, Biological sciences

Abstract

The guinea pig distal colon shows translocation of ions which are acted upon by pituitary adenylate cyclase-activating polypeptide (PACAP). Flux chambers are used to mount the submucosal or mucosal portions from distal colon. The level of release is gauged by the rise in short-circuit current (I(Sc)). I(SC) show 10 to the power of minus 10 to 10 to the power of minus six mol enhancements, which rely on concentration generated by serosal incorporation of PACAP-38 and PACAP-27. The reactions caused by PACAP are prominently attenuated by furosemide and chloride free solutions. Reactions caused by PACAP are totally prevented by tetrodotorun.

Published

1993

20. Neural FFA3 activation inversely regulates anion secretion evoked by nicotinic ACh receptor activation in rat proximal colon

Author

Shunsuke Kimura, Toshihiko Iwanaga, Ken Ichi Iwamoto, Izumi Kaji, Kohtarou Konno, Masahiko Watanabe, Yasutada Akiba, Atsukazu Kuwahara, Ayaka Kuri, and Jonathan D. Kaunitz

Subjects

0301 basic medicine, medicine.medical_specialty, Carbachol, Physiology, Enteroendocrine cell, Smooth muscle contraction, Biology, Choline transporter, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Endocrinology, chemistry, Internal medicine, medicine, Free fatty acid receptor, Cholinergic, Enteric nervous system, Hexamethonium, 030217 neurology & neurosurgery, medicine.drug

Abstract

Key points Luminal short-chain fatty acids (SCFAs) influence gut physiological function via SCFA receptors and transporters. The contribution of an SCFA receptor, free fatty acid receptor (FFA)3, to the enteric nervous system is unknown. FFA3 is expressed in enteric cholinergic neurons. Activation of neural FFA3 suppresses Cl− secretion induced by nicotinic ACh receptor activation via a Gi/o pathway. Neural FFA3 may have an anti-secretory function by modulating cholinergic neural reflexes in the enteric nervous system. Abstract The proximal colonic mucosa is constantly exposed to high concentrations of microbially-produced short-chain fatty acids (SCFAs). Although luminal SCFAs evoke electrogenic anion secretion and smooth muscle contractility via neural and non-neural cholinergic pathways in the colon, the involvement of the SCFA receptor free fatty acid receptor (FFA)3, one of the free fatty acid receptor family members, has not been clarified. We investigated the contribution of FFA3 to cholinergic-mediated secretory responses in rat proximal colon. FFA3 was immunolocalized to enteroendocrine cells and to the enteric neural plexuses. Most FFA3-immunoreactive nerve fibres and nerve endings were cholinergic, colocalized with protein gene product (PGP)9.5, the vesicular ACh transporter, and the high-affinity choline transporter CHT1. In Ussing chambered mucosa–submucosa preparations (including the submucosal plexus) of rat proximal colon, carbachol (CCh)-induced Cl− secretion was decreased by TTX, hexamethonium, and the serosal FFA3 agonists acetate or propionate, although not by an inactive analogue 3-chloropropionate. Serosal application of a selective FFA3 agonist (N-[2-methylphenyl]-[4-furan-3-yl]-2-methyl-5-oxo-1,4,5,6,7,8-hexahydro-quinoline-3-carboxamide; MQC) dose-dependently suppressed the response to CCh but not to forskolin, with an IC50 of 13 μm. Pretreatment with MQC inhibited nicotine-evoked but not bethanechol-evoked secretion. The inhibitory effect of MQC was reversed by pretreatment with pertussis toxin, indicating that FFA3 acts via the Gi/o pathway. Luminal propionate induced Cl− secretion via the cholinergic pathway, which was reduced by MQC, as well as by TTX, hexamethonium or removal of the submucosal plexus. These results suggest that the SCFA-FFA3 pathway has a novel anti-secretory function in that it inhibits cholinergic neural reflexes in the enteric nervous system.

Published

2016

21. Desacetyl bisacodyl-induced epithelial Cl− secretion in rat colon and rectum

Author

Takuya Fujita, Shin-ichiro Karaki, Takashi Tateoka, and Atsukazu Kuwahara

Subjects

0301 basic medicine, Ussing chamber, medicine.medical_treatment, Laxative, Rectum, General Medicine, Pharmacology, Piroxicam, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, medicine.anatomical_structure, chemistry, Tetrodotoxin, medicine, Secretion, Bisacodyl, Active metabolite, medicine.drug

Abstract

The purpose of this study was to clarify the mode of desacetyl bisacodyl (DAB)-induced secretory action in intestinal tissues using an Ussing chamber assay. DAB is the active metabolite of the laxative bisacodyl. In mucosal-submucosal preparations, mucosal application of DAB induced a transient decrease followed by subsequent increases in short-circuit current and tissue conductance in a concentration-dependent manner. DAB-induced responses occurred from the middle colon to the rectal segment but not in the proximal colon. Moreover, these responses were not observed under chloride (Cl(-))-free conditions or in the presence of DAB on the serosal side of the mucosalsubmucosal specimens. Treatment with tetrodotoxin had no effect on the DAB-induced responses; however, mucosal treatment with a COX inhibitor piroxicam resulted in the elimination of responses. These results suggest that DAB may contribute to the laxative action by inducing Cl(-) secretion which is associated with the COX signaling pathway. This study also demonstrated that the DAB target molecule is present on the mucosal side from the middle colon to the rectal segment.

Published

2016

22. Diversity of the intestinal microbiota differently affects non-neuronal and atropine-sensitive ileal contractile responses to short-chain fatty acids in mice

Author

Shin-ichiro Karaki, Atsukazu Kuwahara, Masako Yajima, Takeshi Tsuruta, Junko Nio-Kobayashi, Takaji Yajima, and Shunsuke Kimura

Subjects

medicine.medical_specialty, biology, Lipopolysaccharide, Chemistry, Ileum, Inflammation, General Medicine, biology.organism_classification, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Nicotinic acetylcholine receptor, Atropine, chemistry.chemical_compound, 0302 clinical medicine, Endocrinology, medicine.anatomical_structure, Internal medicine, Lactobacillus, medicine, 030211 gastroenterology & hepatology, medicine.symptom, Receptor, 030217 neurology & neurosurgery, Bifidobacterium, medicine.drug

Abstract

Non-neuronal and atropine-sensitive ileal contractile responses to short chain fatty acids (SCFAs) are detected in the neonatal stage, and change with age or inflammatory conditions. However, the roles of luminal SCFAs in developmental changes have not yet been elucidated. We examined ileal contractile responses to SCFAs in mice colonized with different SCFA-producing intestinal microbiota under normal and inflammatory conditions. Using conventional (Conv), germ-free (GF), and gnotobiotic mice infected with Bifidobacterium (GB-bif), Propionibacterium (GB-prop), or Lactobacillus (GB-lact), ileal contractions were measured in 1-day-old neonates and 7-week-old mice using an isotonic transducer. Contractions occurred in all 1-day-old neonates, and were significantly desensitized in the adult stage in the Conv, GB-bif, and GB-prop groups, but not in the GF and GB-lact groups. An injection of lipopolysaccharide frequently restored desensitized contractions; however, the contraction rate did not change in the GF and GB-lact groups. The relative mRNA expression of a SCFA receptor (GPR43) or nicotinic acetylcholine receptor α7 was weaker in the GF group (0.3-fold or 0.4-fold expression level, respectively) than in the Conv group. In conclusion, the luminal inhabitation of SCFA-producing bacteria may potentiate the regulation of non-neuronal and atropine-sensitive ileal contractile responses to SCFAs under healthy and inflammatory conditions.

Published

2016

23. The effects of intra-stomach obestatin administration on intestinal contractility in neonatal piglets fed milk formula

Author

Żaneta Dzięgelewska, Małgorzata Gajewska, Maria Boryczka, Jarosław Woliński, Ikuo Kato, Monika Słupecka-Ziemilska, Piotr Wychowański, Paulina Szczurek, and Atsukazu Kuwahara

Subjects

medicine.medical_specialty, Muscle Physiology, Physiology, Swine, Duodenum, Science, Enteral administration, Beverages, Contractility, Jejunum, Internal medicine, Muscarinic acetylcholine receptor, Medicine and Health Sciences, medicine, Animals, Obesity, Nutrition, Mammals, Multidisciplinary, Chemistry, Body Weight, Organisms, Biology and Life Sciences, Eukaryota, Correction, Obestatin, Diet, Body Fluids, Gastrointestinal Tract, Atropine, Milk, Endocrinology, medicine.anatomical_structure, Physiological Parameters, Vertebrates, Amniotes, Medicine, Anatomy, Digestive System, Acetylcholine, Research Article, Muscle Contraction, medicine.drug

Abstract

A 23-amino acid peptide named obestatin is derived from the ghrelin gene. The aim of the experiment was to study the effects of enteral obestatin administration for a 6-day period on intestinal contractility in piglets fed milk formula. Pigs were treated with 0.9% NaCl (group C) or varying doses of obestatin: 2 μg/kg body weight (BW) (group O2), 10 μg/kg BW (O10) or 15 μg/kg BW (O15) every 8 hours via a stomach tube. Blood was sampled for assessment of obestatin concentration. Duodenal and middle jejunum whole-thickness preparations were studied in an organ bath for isometric recording under electric field stimulation (EFS) and increasing doses of acetylcholine (ACh), and in the presence of atropine and tetrodotoxin (TTX). Additionally, the measurement of intestinal muscularis layer and the immunodetection of Muscarinic Acetylcholine Receptors (M1 and M2) were performed. In comparison to C animals, the obestatin concentration in blood plasma was significantly increased in groups O10 and O15. In both studied intestinal segments, significant increases in the frequency and amplitude of spontaneous contractions were observed in O15 and C groups. In the duodenum and middle jejunum significant differences in responsiveness to EFS (0.5, 5 and 50 Hz) were observed between the groups. The addition of 10-4 M ACh to the duodenum significantly increased the responsiveness in tissues. In contrast, in the middle jejunum a significant increase in the amplitude of contraction was observed after the addition of 10-9 and 10-6 M ACh (groups O15 and O10, respectively). Pretreatment with atropine and TTX resulted in a significant decrease in the responsiveness of the intestinal preparations from all groups, in both studied segments. The increased contractility was not dependent on the expression of muscarinic receptors. Results indicate the importance of enteral obestatin administration in the regulation of intestinal contractility in neonatal piglets.

Published

2020

24. Regulation of Ion Transport in the Intestine by Free Fatty Acid Receptor 2 and 3: Possible Involvement of the Diffuse Chemosensory System

Author

Yoshinori Marunaka, Yuko Kuwahara, Atsukazu Kuwahara, and Toshio Inui

Subjects

0301 basic medicine, Cellular differentiation, Enteroendocrine cell, Receptors, Cell Surface, diffuse chemosensory system (DCS), Review, enteroendocrine cell (EEC), Catalysis, bicarbonate secretion, free fatty acid receptor 3 (FFA3), Inorganic Chemistry, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, Chlorides, Free fatty acid receptor 2, medicine, Free fatty acid receptor 3, Animals, Humans, Physical and Theoretical Chemistry, Intestinal Mucosa, short-chain fatty acid (SCFA), Receptor, Molecular Biology, intestine, lcsh:QH301-705.5, Spectroscopy, Ion transporter, Ion Transport, Chemistry, Organic Chemistry, free fatty acid receptor 2 (FFA2), General Medicine, Chemoreceptor Cells, Computer Science Applications, Cell biology, chloride secretion, Bicarbonates, 030104 developmental biology, medicine.anatomical_structure, lcsh:Biology (General), lcsh:QD1-999, 030217 neurology & neurosurgery, Homeostasis, Diffuse chemosensory system

Abstract

The diffuse chemosensory system (DCS) is well developed in the apparatuses of endodermal origin like gastrointestinal (GI) tract. The primary function of the GI tract is the extraction of nutrients from the diet. Therefore, the GI tract must possess an efficient surveillance system that continuously monitors the luminal contents for beneficial or harmful compounds. Recent studies have shown that specialized cells in the intestinal lining can sense changes in the luminal content. The chemosensory cells in the GI tract belong to the DCS which consists of enteroendocrine and related cells. These cells initiate various important local and remote reflexes. Although neural and hormonal involvements in ion transport in the GI tract are well documented, involvement of the DCS in the regulation of intestinal ion transport is much less understood. Since activation of luminal chemosensory receptors is a primary signal that elicits changes in intestinal ion transport and motility and failure of the system causes dysfunctions in host homeostasis, as well as functional GI disorders, study of the regulation of GI function by the DCS has become increasingly important. This review discusses the role of the DCS in epithelial ion transport, with particular emphasis on the involvement of free fatty acid receptor 2 (FFA2) and free fatty acid receptor 3 (FFA3).

Published

2018

25. Activation of muscarinic cholinoceptor ameliorates tumor necrosis factor-α-induced barrier dysfunction in intestinal epithelial cells

Author

Takanobu Taniguchi, Susanne M. Krug, Michael Fromm, Rafiqul Islam Khan, Yuichi Suzuki, Hatsumi Yoshiki, Tariqul Islam, Ikunobu Muramatsu, Shin-ichiro Karaki, Abu Syed Md Anisuzzaman, Atsukazu Kuwahara, Takashi Yazawa, Junsuke Uwada, and Kiyonao Sada

Subjects

medicine.medical_specialty, Carbachol, Colon, Biophysics, Stimulation, Pharmacology, Biochemistry, Intestinal mucosa, Structural Biology, Internal medicine, Muscarinic acetylcholine receptor, Genetics, medicine, Animals, Humans, Intestinal Mucosa, Molecular Biology, Barrier function, Tumor Necrosis Factor-alpha, Chemistry, NF-kappa B, Cell Biology, Receptors, Muscarinic, Intestinal epithelium, Rats, Atropine, Endocrinology, Receptors, Tumor Necrosis Factor, Type I, Tumor necrosis factor alpha, HT29 Cells, Signal Transduction, medicine.drug

Abstract

Impaired intestinal barrier function is one of the critical issues in inflammatory bowel diseases. The aim of this study is to investigate muscarinic cholinoceptor (mAChR)-mediated signaling for the amelioration of cytokine-induced barrier dysfunction in intestinal epithelium. Rat colon challenged with TNF-α and interferon γ reduced transepithelial electrical resistance (TER). This barrier injury was attenuated by muscarinic stimulation. In HT-29/B6 intestinal epithelial cells, muscarinic stimulation suppressed TNF-α-induced activation of NF-κB signaling and barrier disruption. Finally, muscarinic stimulation promoted the shedding of TNFR1, which would be a mechanism for the attenuation of TNF-α/NF-κB signaling and barrier disruption via mAChR.

Published

2015

26. Apelin's effects on young rat gastrointestinal tract maturation

Author

Romuald Zabielski, Andrzej Przemysław Herman, Małgorzata Kapica, Hanna Antushevich, Joanna Bierła, Agata Krawczyńska, Bartosz Pawlina, Ikuo Kato, and Atsukazu Kuwahara

Subjects

Male, medicine.medical_specialty, Colon, Duodenum, Physiology, Drinking, Gene Expression, Mitosis, Apoptosis, Biology, Biochemistry, Drug Administration Schedule, DNA Glycosylases, Jejunum, Eating, Cellular and Molecular Neuroscience, Endocrinology, Internal medicine, Gene expression, medicine, Animals, Infusions, Parenteral, Rats, Wistar, Gastrointestinal tract, Stomach, digestive, oral, and skin physiology, Epithelial Cells, Cytoprotection, Rats, Apelin, Isoenzymes, medicine.anatomical_structure, Gastric Mucosa, Organ Specificity, Intercellular Signaling Peptides and Proteins

Abstract

Apelin is considered an important gut regulatory peptide with potential physiological roles in gastrointestinal cytoprotection and regulation of food intake and drinking behavior. The aim of this study was to determine the effects of intraperitoneal or intragastric apelin administration on gastric and intestinal epithelial apoptosis, mitosis and DNA repair enzyme 8-oxoguanine (OGG 1/2) expression in young Wistar rats (50±5 g b.wt.). Apelin-13 was intraperitoneally or intragastrically administered twice a day for 10 days (100 nmol/kg b.wt./2×day), and control groups received physiological saline as a placebo. The rats were sacrificed after treatment, and the gastric fundus, duodenum, middle jejunum and colon tissue samples were harvested for immunofluorescence studies. Intragastric administration of apelin-13 increased the apoptotic index in the stomach and colon tissues (P≤0.001) but decreased apoptosis in the duodenum and jejunum (P

Published

2015

27. Short-chain fatty acid sensing in rat duodenum

Author

Takuya Inoue, Masaaki Higashiyama, Eli Engel, Kazuyuki Narimatsu, Ken-ichi Iwamoto, Izumi Kaji, Paul H. Guth, Masahiko Watanabe, Yasutada Akiba, Atsukazu Kuwahara, and Jonathan D. Kaunitz

Subjects

chemistry.chemical_classification, Agonist, medicine.medical_specialty, Physiology, medicine.drug_class, digestive, oral, and skin physiology, Short-chain fatty acid, Fatty acid, Receptor antagonist, Endocrinology, chemistry, Internal medicine, Muscarinic acetylcholine receptor, Free fatty acid receptor, medicine, Receptor, Cholecystokinin

Abstract

Intraduodenal fatty acids (FA) and bacterial overgrowth, which generate short-chain FAs (SCFAs), have been implicated in the generation of functional dyspepsia symptoms. We studied the mechanisms by which luminal SCFA perfusion affects duodenal HCO3− secretion (DBS), a measure of mucosal neurohumoral activation. Free fatty acid receptor (FFAR) 1 (FFA1), which binds long-chain FA (LCFA), and SCFA receptors FFA2 and FFA3 were immunolocalised to duodenal enteroendocrine cells. FFA3 colocalised with glucagon-like peptide (GLP)-1, whereas FFA2 colocalised with 5-HT. Luminal perfusion of the SCFA acetate or propionate increased DBS, enhanced by dipeptidyl peptidase-IV (DPPIV) inhibition, at the same time as increasing GLP-2 portal blood concentrations. Acetate-induced DBS was partially inhibited by monocarboxylate/HCO3− exchanger inhibition without affecting GLP-2 release, implicating acetate absorption in the partial mediation of DBS. A selective FFA2 agonist dose-dependently increased DBS, unaffected by DPPIV inhibition or by cholecystokinin or 5-HT3 receptor antagonists, but was inhibited by atropine and a 5-HT4 antagonist. By contrast, a selective FFA1 agonist increased DBS accompanied by GLP-2 release, enhanced by DPPIV inhibition and inhibited by a GLP-2 receptor antagonist. Activation of FFA1 by LCFA and presumably FFA3 by SCFA increased DBS via GLP-2 release, whereas FFA2 activation stimulated DBS via muscarinic and 5-HT4 receptor activation. SCFA/HCO3− exchange also appears to be present in the duodenum. The presence of duodenal fatty acid sensing receptors that signal hormone release and possibly signal neural activation may be implicated in the pathogenesis of functional dyspepsia.

Published

2015

28. FFA2 activation combined with ulcerogenic COX inhibition induces duodenal mucosal injury via the 5-HT pathway in rats

Author

Ayaka Kuri, Koji Maruta, Kazuyuki Narimatsu, Hyder Said, Yasutada Akiba, Atsukazu Kuwahara, Izumi Kaji, Jonathan D. Kaunitz, and Ken-ichi Iwamoto

Subjects

0301 basic medicine, medicine.medical_specialty, Serotonin, Physiology, Duodenum, Indomethacin, digestive system, Receptors, G-Protein-Coupled, 03 medical and health sciences, 0302 clinical medicine, Intestinal mucosa, Physiology (medical), Internal medicine, Free fatty acid receptor 2, medicine, Enterochromaffin Cells, Animals, Cyclooxygenase Inhibitors, Intestinal Mucosa, 5-HT receptor, chemistry.chemical_classification, Hepatology, business.industry, Gastroenterology, Fatty acid, Rats, Bicarbonates, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, chemistry, Anesthesia, Enterochromaffin cell, Gastric acid, 030211 gastroenterology & hepatology, business, Research Article

Abstract

Serotonin (5-HT), predominantly synthesized and released by enterochromaffin cells, is implicated in gastrointestinal symptoms such as emesis, abdominal pain, and diarrhea. Because luminal short-chain fatty acids (SCFAs) release 5-HT from enterochromaffin cells, which express the SCFA receptor free fatty acid receptor 2 (FFA2) in rat duodenum, we examined the effects of the selective FFA2 agonist phenylacetamide-1 (PA1) on duodenal 5-HT release with consequent bicarbonate secretion [duodenal bicarbonate secretion (DBS)] and on indomethacin (IND)-induced enteropathy. Intestinal injury was induced by IND (10 mg/kg sc) with or without PA1. We measured DBS in vivo in a duodenal loop perfused with PA1 while measuring 5-HT released in the portal vein. Duodenal blood flow was measured by laser-Doppler flowmetry. IND induced small intestinal ulcers with duodenal sparing. PA1 given with IND (IND + PA1) dose dependently induced duodenal erosions. IND + PA1-induced duodenal lesions were inhibited by the FFA2 antagonist GLPG-0974, ondansetron, or omeprazole but not by RS-23597 or atropine. Luminal perfusion of PA1 augmented DBS accompanied by increased portal blood 5-HT concentrations with approximately eight times more release at 0.1 mM than at 1 µM, with the effects inhibited by coperfusion of GLPG-0974. Luminal PA1 at 1 µM increased, but at 0.1 mM diminished, duodenal blood flow. Cosuperfusion of PA1 (0.1 mM) decreased acid-induced hyperemia, further reduced by IND pretreatment but restored by ondansetron. These results suggest that, although FFA2 activation enhances duodenal mucosal defenses, FFA2 overactivation during ulcerogenic cyclooxygenase inhibition may increase the vulnerability of the duodenal mucosa to gastric acid via excessive 5-HT release and 5-HT3receptor activation, implicated in foregut-related symptoms such as emesis and epigastralgia.NEW & NOTEWORTHY Luminal free fatty acid receptor 2 agonists stimulate enterochromaffin cells and release serotonin, which enhances mucosal defenses in rat duodenum. However, overdriving serotonin release with high luminal concentrations of free fatty acid 2 ligands such as short-chain fatty acids injures the mucosa by decreasing mucosal blood flow. These results are likely implicated in serotonin-related dyspeptic symptom generation because of small intestinal bacterial overgrowth, which is hypothesized to generate excess SCFAs in the foregut, overdriving serotonin release from enterochromaffin cells.

Published

2017

29. Xenin Augments Duodenal Anion Secretion via Activation of Afferent Neural Pathways

Author

Jonathan D. Kaunitz, Izumi Kaji, Yasutada Akiba, Atsukazu Kuwahara, Koji Maruta, and Ikuo Kato

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Duodenum, Substance P, Enteroendocrine cell, Biology, Xenin, Jejunum, Rats, Sprague-Dawley, Gastrointestinal Hormones, Dose-Response Relationship, 03 medical and health sciences, chemistry.chemical_compound, Organ Culture Techniques, Internal medicine, Neural Pathways, medicine, Animals, Secretion, Neurons, Afferent, Pharmacology & Pharmacy, Intestinal Mucosa, Neurotensin, Pharmacology, Neurons, Afferent Pathways, Dose-Response Relationship, Drug, Neurosciences, Afferent, Pharmacology and Pharmaceutical Sciences, Rats, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, chemistry, Tetrodotoxin, Molecular Medicine, Sprague-Dawley, Drug, Digestive Diseases, Gastrointestinal, Hepatic, Pulmonary, and Renal

Abstract

Xenin-25, a neurotensin (NT)-related anorexigenic gut hormone generated mostly in the duodenal mucosa, is believed to increase the rate of duodenal ion secretion, because xenin-induced diarrhea is not present after Roux-en-Y gastric bypass surgery. Because the local effects of xenin on duodenal ion secretion have remained uninvestigated, we thus examined the neural pathways underlying xenin-induced duodenal anion secretion. Intravenous infusion of xenin-8, a bioactive C-terminal fragment of xenin-25, dose dependently increased the rate of duodenal HCO3− secretion in perfused duodenal loops of anesthetized rats. Xenin was immunolocalized to a subset of enteroendocrine cells in the rat duodenum. The mRNA of the xenin/NT receptor 1 (NTS1) was predominantly expressed in the enteric plexus, nodose and dorsal root ganglia, and in the lamina propria rather than in the epithelium. The serosal application of xenin-8 or xenin-25 rapidly and transiently increased short-circuit current in Ussing-chambered mucosa-submucosa preparations in a concentration-dependent manner in the duodenum and jejunum, but less so in the ileum and colon. The selective antagonist for NTS1, substance P (SP) receptor (NK1), or 5-hydroxytryptamine (5-HT)3, but not NTS2, inhibited the responses to xenin. Xenin-evoked Cl- secretion was reduced by tetrodotoxin (TTX) or capsaicin-pretreatment, and abolished by the inhibitor of TTX-resistant sodium channel Nav1.8 in combination with TTX, suggesting that peripheral xenin augments duodenal HCO3− and Cl− secretion through NTS1 activation on intrinsic and extrinsic afferent nerves, followed by release of SP and 5-HT. Afferent nerve activation by postprandial, peripherally released xenin may account for its secretory effects in the duodenum.

Published

2017

30. IGICS: JGA Keynote Program. The 6th International Gastrointestinal Consensus Symposium. Microbiomes in Gastrointestinal Disease. January 26, 2013, Tokyo, Japan: Abstracts

Author

Yasushi Funaki, Yoshikazu Kinoshita, Hidekazu Suzuki, Hiroshi Kato, Naotaka Ogasawara, Takashi Joh, Akira Ueda, Y. Akazawa, Kunio Kasugai, Naoki Horikawa, Kazuhisa Yabuhita, Toshimitsu Fujii, Takafumi Naito, Izumi Kaji, Eiko Saito, Fumiaki Ueno, Shiro Nakamura, Kazuhiko Uchiyama, Kentaro Tokudome, Koichi Shibutani, Ki Baik Hahm, Yoh Ishiguro, Hiroki Yoshita, Yasutaka Sukawa, Makoto Sasaki, Kazuo Ohtsuka, Katsuhiko Nosho, Yasushi Adachi, Yoshihiro Takai, Kei Mitsuhashi, Hisayoshi Igarashi, Hiroshi Miyamoto, Yosuke Otake, Yoshio Kitazume, Makomo Makazu, Ayumu Hosokawa, Takayuki Ando, Masashi Mikami, Ari Fahrial Syam, Hiromu Suzuki, T. Hayashi, Takahisa Matsuda, Yuji Naito, Atsukazu Kuwahara, Takayuki Matsumoto, Makoto Naganuma, Taku Sakamoto, Qi Zhu, Tetsuji Takayama, H. Minami, K. Ohnita, Eriko Turuki, Takahiro Goji, Gakuto Tomizawa, Shinsaku Fukuda, Masayoshi Yamada, Druckerei Stückle, Mamoru Watanabe, Yasuhiro Tamura, Keisuke Hasui, H. Isomoto, Toshiro Sugiyama, Shinya Izawa, N. Yamaguchi, Seiichiro Abe, Yasuhisa Shinomura, K. Nakao, T Arakawa, Yasuhiro Fujiwara, Udom Kachintorn, Genki Mori, Abdul Aziz Rani, Taiga Takahashi, Atsushi Yoshida, Hiroyuki Yamamoto, Hiroto Hiraga, Yutaka Saito, F. Takeshima, Shin-ichi Takahashi, Yasuharu Yamaguchi, Nobuyuki Hida, H. Inoue, Shin-ichiro Karaki, Takeshi Nakajima, Jose D. Sollano, Hirotake Sakuraba, Akihito Iida, Masakazu Nagahori, Chiko Sato, Miki Ito, Masau Sekiguchi, T. Nakayama, Yasuyuki Okada, Shin Fukudo, Yasutaka Matsunaga, Yuzuru Kinjo, Hideto Kawabe, and Shinya Kajiura

Subjects

Gerontology, medicine.medical_specialty, Gastrointestinal disease, business.industry, Family medicine, Gastroenterology, medicine, Microbiome, medicine.disease, business

Published

2014

31. Activation of muscarinic receptors prevents TNF-α-mediated intestinal epithelial barrier disruption through p38 MAPK

Author

Junsuke Uwada, Takanobu Taniguchi, Michael Fromm, Hatsumi Yoshiki, Shin-ichiro Karaki, Takashi Yazawa, Yuichi Suzuki, Kiyonao Sada, Rafiqul Islam Khan, Atsukazu Kuwahara, Susanne M. Krug, Ikunobu Muramatsu, and Tariqul Islam

Subjects

0301 basic medicine, medicine.medical_specialty, Tumor necrosis factor, MAP Kinase Signaling System, medicine.medical_treatment, Histamine H1 receptor, p38 MAPK, Biology, ADAM17 Protein, p38 Mitogen-Activated Protein Kinases, Inflammatory bowel disease, Receptors, Tumor Necrosis Factor, Receptors, G-Protein-Coupled, Muscarinic acetylcholine receptor, 03 medical and health sciences, Downregulation and upregulation, Internal medicine, medicine, Humans, Receptors, Histamine H1, Intestinal Mucosa, Phosphorylation, Receptor, Intestinal barrier, Barrier function, Histamine receptor, G protein-coupled receptor, Receptor, Muscarinic M3, Tumor Necrosis Factor-alpha, Muscarinic acetylcholine receptor M3, Epithelial Cells, Cell Biology, Inflammatory Bowel Diseases, Cell biology, ErbB Receptors, 030104 developmental biology, Endocrinology, Cytokine, Tumor necrosis factor alpha, HT29 Cells, Signal Transduction

Abstract

CC-BY-NC-ND, Intestinal epithelial cells form a tight barrier to act as selective physical barriers, repelling hostile substances. Tumor necrosis factor-α (TNF-α) is a well characterized pro-inflammatory cytokine which can compromise intestinal barrier function and the suppression of TNF-α function is important for treatment of inflammatory bowel disease (IBD). In this study, we investigated the contribution of G-protein-coupled receptor (GPCR)-induced signalling pathways to the maintenance of epithelial barrier function. We first demonstrated the existence of functional muscarinic M3 and histamine H1 receptors in colonic epithelial cell HT-29/B6. As we previously reported, muscarinic M3 receptor prevented TNF-α-induced barrier disruption through acceleration of TNF receptor (TNFR) shedding which is carried out by TNF-α converting enzyme (TACE). M3 receptor-mediated suppression of TNF-α function depends on Gαq/11 protein, however, histamine H1 receptor could not ameliorate TNF-α function, while which could induce Gαq/11 dependent intracellular Ca2+ mobilization. We found that p38 MAPK was predominantly phosphorylated by M3 receptor through Gαq/11 protein, whereas H1 receptor barely upregulated the phosphorylation. Inhibition of p38 MAPK abolished M3 receptor-mediated TNFR shedding and suppression of TNF-α-induced NF-κB signalling. The p38 MAPK was also involved in TACE- mediated EGFR transactivation followed by ERK1/2 phosphorylation. These results indicate that not H1 but M3 receptor-induced activation of p38 MAPK might contribute to the maintenance of epithelial barrier function through down-regulation of TNF-α signalling and activation of EGFR.

Published

2016

32. Lipopolysaccharides transport during fat absorption in rodent small intestine.

Author

Yasutada Akiba, Maruta, Koji, Takeshi Takajo, Kazuyuki Narimatsu, Said, Hyder, Ikuo Kato, Atsukazu Kuwahara, and Kaunitz, Jonathan D.

Abstract

Lipopolysaccharides (LPS) are potent pro-inflammatory molecules that enter the systemic circulation from the intestinal lumen by uncertain mechanisms. We investigated these mechanisms and the effect of exogenous glucagon-like peptide-2 (GLP-2) on LPS transport in the rodent small intestine. Transmucosal LPS transport was measured in Ussing-chambered rat jejunal mucosa. In anesthetized rats, the appearance of fluorescein isothiocyanate (FITC)-LPS into the portal vein (PV) and the mesenteric lymph was simultaneously monitored after intraduodenal perfusion of FITC-LPS with oleic acid and taurocholate (OA/TCA). In vitro, luminally applied LPS rapidly appeared in the serosal solution only with luminal OA/TCA present, inhibited by the lipid raft inhibitor methyl-β-cyclodextrin (MβCD) and the CD36 inhibitor sulfosuccinimidyl oleate (SSO), or by serosal GLP-2. In vivo, perfusion of FITC-LPS with OA/TCA rapidly increased FITC-LPS appearance into the PV, followed by a gradual increase of FITC-LPS into the lymph. Rapid PV transport was inhibited by the addition of MβCD or by SSO, whereas transport into the lymph was inhibited by chylomicron synthesis inhibition. Intraveous injection of the stable GLP-2 analog teduglutide acutely inhibited FITC-LPS transport into the PV, yet accelerated FITC-LPS transport into the lymph via Nω-nitro-l-arginine methyl ester (l-NAME)- and PG97-269-sensitive mechanisms. In vivo confocal microscopy in mouse jejunum confirmed intracellular FITC-LPS uptake with no evidence of paracellular localization. This is the first direct demonstration in vivo that luminal LPS may cross the small intestinal barrier physiologically during fat absorption via lipid raft- and CD36-mediated mechanisms, followed by predominant transport into the PV, and that teduglutide inhibits LPS uptake into the PV in vivo. NEW & NOTEWORTHY We report direct in vivo confirmation of transcellular lipopolysaccharides (LPS) uptake from the intestine into the portal vein (PV) involving CD36 and lipid rafts, with minor uptake via the canonical chylomicron pathway. The gut hormone glucagon-like peptide-2 (GLP-2) inhibited uptake into the PV. These data suggest that the bulk of LPS absorption is via the PV to the liver, helping clarify the mechanism of LPS transport into the PV as part of the "gut-liver" axis. These data do not support the paracellular transport of LPS, which has been implicated in the pathogenesis of the "leaky gut" syndrome. [ABSTRACT FROM AUTHOR]

Published

2020

33. Role of PGE2 in the colonic motility: PGE2 generates and enhances spontaneous contractions of longitudinal smooth muscle in the rat colon

Author

Yumiko Iizuka, Shin-ichiro Karaki, and Atsukazu Kuwahara

Subjects

Male, Cell physiology, Agonist, endocrine system, medicine.medical_specialty, Colon, Physiology, medicine.drug_class, Endogeny, In Vitro Techniques, Piroxicam, Dinoprostone, chemistry.chemical_compound, Internal medicine, medicine, Animals, Cyclooxygenase Inhibitors, Alprostadil, Rats, Wistar, Receptor, Dose-Response Relationship, Drug, biology, Antagonist, Muscle, Smooth, Receptors, Prostaglandin E, EP1 Subtype, Rats, Endocrinology, chemistry, Receptors, Prostaglandin E, EP3 Subtype, biology.protein, Tetrodotoxin, lipids (amino acids, peptides, and proteins), Cyclooxygenase, Gastrointestinal Motility, Muscle Contraction, Signal Transduction, medicine.drug

Abstract

The aim of this study was to determine which PGE2 receptors (EP1-4 receptors) influence colonic motility. Mucosa-free longitudinal smooth muscle strips of the rat middle colon spontaneously induced frequent phasic contractions (giant contractions, GCs) in vitro, and the GCs were almost completely abolished by a cyclooxygenase inhibitor, piroxicam, and by an EP3 receptor antagonist, ONO-AE3-240, but enhanced by tetrodotoxin (TTX). In the presence of piroxicam, exogenous PGE2, both ONO-AE-248 (EP3 agonist), and ONO-DI-004 (EP1 agonist) induced GC-like contractions, and increased the frequency and amplitude. These effects of EP receptor agonists were insensitive to TTX and ω-conotoxins. In immunohistochemistry, the EP1 and EP3 receptors were expressed in the longitudinal smooth muscle cells. These results suggest that the endogenous PGE2 spontaneously generates and enhances the frequent phasic contractions directly activating the EP1 and EP3 receptors expressed on longitudinal smooth muscle cells in the rat middle colon.

Published

2013

34. Chemical synthesis and formulation design of a PEGylated vasoactive intestinal peptide derivative with improved metabolic stability

Author

Shizuo Yamada, Masashi Kato, Atsukazu Kuwahara, Satomi Onoue, Liang Liu, Takuya Matsui, Baosheng Liu, Takahiro Mizumoto, and Shin-ichiro Karaki

Subjects

Male, Ovalbumin, Stereochemistry, Vasoactive intestinal peptide, Anti-Inflammatory Agents, Pharmaceutical Science, Cell Count, Granulocyte, Pharmacology, Chemical synthesis, Polyethylene Glycols, Rats, Sprague-Dawley, In vivo, Administration, Inhalation, PEG ratio, medicine, Animals, Particle Size, Lung, Peroxidase, L-Lactate Dehydrogenase, Inhalation, Chemistry, Pneumonia, Allergens, In vitro, Rats, medicine.anatomical_structure, PEGylation, Bronchoalveolar Lavage Fluid, Vasoactive Intestinal Peptide

Abstract

The present study aimed to design a PEGylated VIP derivative, [Arg 15, 20, 21 , Leu 17 ]-VIP-GRR (IK312532), with improved metabolic stability, and develop its respirable powder (RP) formulation for inhalation therapy. IK312532 was chemically conjugated with PEG (5 kDa, P5K), the physicochemical and biochemical properties of which were characterized by CD spectral analysis, binding assays, and metabolic stability. CD spectral analysis demonstrated that PEG conjugation had no impact on the conformational structure of IK312532. Although the receptor-binding activity of IK312532/P5K (IC 50 : 82 nM) was estimated to be ca. 30-fold less than that of IK312532 (IC 50 : 2.8 nM), the metabolic stability of IK312532/P5K was highly improved. The IK312532/P5K was jet-milled and blended with lactose carrier particles to provide RP formulation of IK312532/P5K (IK312532/P5K-RP). In vitro inhalation performance and in vivo pharmacological effects of the IK312532/P5K-RP in antigen-sensitized rats were also evaluated. In cascade impactor analyses, fine particle fraction of IK312532/P5K-RP was calculated to be ca. 37%. Insufflation of IK312532/P5K-RP (150 μg of IK312532/P5K) in antigen-sensitized rats resulted in marked attenuation of inflammatory events, as evidenced by significant decreases in inflammatory biomarkers and granulocyte recruitment in pulmonary tissue 24 h after the antigen challenge. From these findings, PEGylation of a VIP derivative, as well as its strategic application to the RP formulation, may be a viable approach to improve its therapeutic potential for the treatment of airway inflammatory diseases.

Published

2013

35. Diversity of the intestinal microbiota differently affects non-neuronal and atropine-sensitive ileal contractile responses to short-chain fatty acids in mice

Author

Masako, Yajima, Shin-Ichiro, Karaki, Takeshi, Tsuruta, Shunsuke, Kimura, Junko, Nio-Kobayashi, Atsukazu, Kuwahara, and Takaji, Yajima

Subjects

Atropine, Inflammation, alpha7 Nicotinic Acetylcholine Receptor, Gene Expression, Acetates, Fatty Acids, Volatile, Gastrointestinal Microbiome, Receptors, G-Protein-Coupled, Mice, Ileum, Animals, RNA, Messenger, Propionates, Gastrointestinal Motility, Muscle Contraction

Abstract

Non-neuronal and atropine-sensitive ileal contractile responses to short chain fatty acids (SCFAs) are detected in the neonatal stage, and change with age or inflammatory conditions. However, the roles of luminal SCFAs in developmental changes have not yet been elucidated. We examined ileal contractile responses to SCFAs in mice colonized with different SCFA-producing intestinal microbiota under normal and inflammatory conditions. Using conventional (Conv), germ-free (GF), and gnotobiotic mice infected with Bifidobacterium (GB-bif), Propionibacterium (GB-prop), or Lactobacillus (GB-lact), ileal contractions were measured in 1-day-old neonates and 7-week-old mice using an isotonic transducer. Contractions occurred in all 1-day-old neonates, and were significantly desensitized in the adult stage in the Conv, GB-bif, and GB-prop groups, but not in the GF and GB-lact groups. An injection of lipopolysaccharide frequently restored desensitized contractions; however, the contraction rate did not change in the GF and GB-lact groups. The relative mRNA expression of a SCFA receptor (GPR43) or nicotinic acetylcholine receptor α7 was weaker in the GF group (0.3-fold or 0.4-fold expression level, respectively) than in the Conv group. In conclusion, the luminal inhabitation of SCFA-producing bacteria may potentiate the regulation of non-neuronal and atropine-sensitive ileal contractile responses to SCFAs under healthy and inflammatory conditions.

Published

2016

36. Non-neuronal, but atropine-sensitive ileal contractile responses to short-chain fatty acids: age-dependent desensitization and restoration under inflammatory conditions in mice

Author

Junko Nio-Kobayashi, Toshihiko Iwanaga, Masako Yajima, Shunsuke Kimura, Atsukazu Kuwahara, Takeshi Tsuruta, Shin-ichiro Karaki, and Takaji Yajima

Subjects

0301 basic medicine, Atropine, Lipopolysaccharides, Male, Time Factors, short‐chain fatty acids, Lipopolysaccharide, Physiology, inflammatory condition, Ageing and Degeneration, Receptors, G-Protein-Coupled, chemistry.chemical_compound, 0302 clinical medicine, Intestinal mucosa, non‐neuronal acetylcholine, Intestinal Mucosa, Acetic Acid, Original Research, Mice, Inbred BALB C, Fatty Acids, Age Factors, Choline acetyltransferase, Acetylcholinesterase, Regulatory Pathways, Free fatty acid receptor, Acetylcholine, medicine.drug, Muscle Contraction, medicine.medical_specialty, short-chain fatty acids, Immunology, Biology, GPI-Linked Proteins, Choline O-Acetyltransferase, 03 medical and health sciences, ileal contraction, Ileum, Physiology (medical), Internal medicine, medicine, Animals, Cholinesterase, Inflammation, Membrane Transport Proteins, Epithelial Cells, Muscle, Smooth, non-neuronal acetylcholine, Gastrointestinal Tract, Disease Models, Animal, 030104 developmental biology, Endocrinology, chemistry, age, biology.protein, Cholinergic, Cholinesterase Inhibitors, Propionates, 030217 neurology & neurosurgery

Abstract

Intestinal epithelial cells sense short‐chain fatty acids (SCFAs) to secrete non‐neuronal acetylcholine (ACh). However, the roles of luminal SCFAs and epithelial ACh under normal and pathological conditions remain unknown. We examined ileal contractile responses to SCFAs at different ages and their mucosal cholinergic alterations under inflammatory conditions. Ileal contractile responses to SCFAs in 1‐day‐old pups to 7‐week‐old mice were compared using an isotonic transducer, and responses to an intraperitoneal injection of lipopolysaccharide (LPS) were analyzed in 7‐week‐old mice. The mRNA expression levels of a SCFA activate free fatty acid receptor, acetylcholinesterase (AChE), choline acetyltransferase (Chat), and choline transporter‐like protein 4 (CTL4) were measured using real‐time quantitative RT‐PCR. AChE was analyzed by histochemical and optical enzymatic assays. Atropine‐sensitive ileal contractile responses to SCFAs occurred in all 1‐day‐old pups, but were frequently desensitized after the weaning period. These contractile responses were not inhibited by tetrodotoxin and did not appear when the mucosal layer had been scraped off. Contractile desensitization in 7‐week‐old mice was abolished in the presence of the AChE inhibitor, eserine, which was consistent with increased AChE activity after weaning. Ileal contractions to SCFAs in adult mice were restored by LPS, which significantly increased the epithelial mRNA expression of Chat and CTL4. Atropine‐sensitive ileal contractile responses to SCFAs constitutively occur in the newborn period, and are desensitized during developmental stages following the up‐regulated expression of AChE in the villous mucosa, but are restored under inflammatory conditions possibly via the release of epithelial ACh.

Published

2016

37. Subepithelial trypsin induces enteric nerve-mediated anion secretion by activating proteinase-activated receptor 1 in the mouse cecum

Author

Osamu Ikehara, Hisayoshi Hayashi, Atsukazu Kuwahara, Shin-ichiro Karaki, Yuichi Suzuki, Toshiharu Waguri, and Izumi Kaji

Subjects

Anions, Male, Serotonin, Proteases, Cell signaling, Physiology, Indomethacin, Secretomotor, Biology, Enteric Nervous System, Serine, Mice, medicine, Animals, Masoprocol, Protease Inhibitors, Receptor, PAR-1, Trypsin, Secretion, Intestinal Mucosa, Receptor, Cecum, Serine protease, Proadifen, Molecular biology, Biochemistry, biology.protein, Eicosanoids, Oligopeptides, medicine.drug

Abstract

Serine proteases are versatile signaling molecules and often exert this function by activating the proteinase-activated receptors (PAR(1)-PAR(4)). Our previous study on the mouse cecum has shown that the PAR(1)-activating peptide (AP) and PAR(2)-AP both induced electrogenic anion secretion. This secretion mediated by PAR(1) probably occurred by activating the receptor on the submucosal secretomotor neurons, while PAR(2)-mediated anion secretion probably occurred by activating the receptor on the epithelial cells. This present study was aimed at using trypsin to further elucidate the roles of serine proteases and PARs in regulating intestinal anion secretion. A mucosal-submucosal sheet of the mouse cecum was mounted in Ussing chambers, and the short-circuit current (I(sc)) was measured. Trypsin added to the serosal side increased I(sc) with an ED(50) value of approximately 100 nM. This I(sc) increase was suppressed by removing Cl(-) from the bathing solution. The I(sc) increase induced by 100 nM trypsin was substantially suppressed by tetrodotoxin, and partially inhibited by an NK(1) receptor antagonist, by a muscarinic Ach-receptor antagonist, and by 5-hydroxytryptamine-3 (5-HT(3)) and 5-HT(4) receptor antagonists. The I(sc) increase induced by trypsin was partially suppressed when the tissue had been pretreated with PAR(1)-AP, but not by a pretreatment with PAR(2)-AP. These results suggest that the serine protease, trypsin, induced anion secretion by activating the enteric secretomotor nerves. This response was initiated in part by activating PAR(1) on the enteric nerves. Serine proteases and PARs are likely to be responsible for the diarrhea occurring under intestinal inflammatory conditions.

Published

2012

38. The G-protein on cholesterol-rich membrane microdomains mediates mucosal sensing of short- chain fatty acid and secretory response in rat colon

Author

Masako Yajima, Takeshi Tsuruta, Atsukazu Kuwahara, Takaji Yajima, Ryo Inoue, Shin-ichiro Karaki, and Tohru Hira

Subjects

chemistry.chemical_classification, medicine.medical_specialty, Physiology, G protein, Short-chain fatty acid, Biology, Molecular biology, Endocrinology, chemistry, Internal medicine, Mastoparan, Caveolae, medicine, Propionate, Secretion, Receptor, Lipid raft

Abstract

Aim Short-chain fatty acids (SCFA) stimulate colonic contraction and secretion, which are mediated by an enteric reflex via a mucosal sensing and cholinergic mechanisms. The involvement of G-protein signal transduction was examined in the secretory response to luminal propionate sensing in rat distal colon. Methods Mucosa-submucosa and mucosa preparations were used to measure short-circuit current (I(sc)) and acetylcholine (ACh) release respectively. Cholesterol-rich membrane microdomains, lipid rafts/caveolae, were fractionated using a sucrose gradient ultra-centrifugation after detergent-free extraction of the isolated colonic crypt. Results Luminal addition of methyl-β-cyclodextrin (10 mm) and mastoparan (30 μm), lipid rafts/caveolae disruptors, significantly inhibited luminal propionate-induced (0.5 mm) increases in I(sc) , but did not affect increases in I(sc) induced by serosal ACh (0.05 mm) or electrical field stimulation (EFS). Luminal addition of YM-254890 (10 μm), a Gα(q/11) -selective inhibitor, markedly inhibited propionate-induced increase in I(sc) , but did not affect I(sc) responses to ACh and EFS. Both methyl-β-cyclodextrin and YM-254890 significantly inhibited luminal propionate-induced non-neuronal release of ACh from colonocytes. Real-time PCR demonstrated that in mRNA expression of SCFA receptors, GPR 43 was far higher than that of GPR41 in the colon. Western blotting analysis revealed that the cholesterol-rich membrane microdomains that fractionated from colonic crypt cells were associated with caveolin-1, flotillin-1 and Gα(q/11) , but not GPR43. Uncoupling of Gα(q/11) from flotillin-1 in lipid rafts occurred under desensitization of the I(sc) response to propionate. Conclusions These data demonstrate that the secretory response to luminal propionate in rat colon is mediated by G-protein on cholesterol-rich membrane microdomains, provably via Gα(q/11) .

Published

2011

39. Density distribution of free fatty acid receptor 2 (FFA2)-expressing and GLP-1-producing enteroendocrine L cells in human and rat lower intestine, and increased cell numbers after ingestion of fructo-oligosaccharide

Author

Izumi Kaji, Shin-ichiro Karaki, Atsukazu Kuwahara, and Ryo Tanaka

Subjects

Male, medicine.medical_specialty, Histology, Physiology, Enteroendocrine Cells, Oligosaccharides, Receptors, Cell Surface, Enteroendocrine cell, Fatty Acids, Nonesterified, Carbohydrate metabolism, Biology, Receptors, G-Protein-Coupled, Eating, Feces, Cecum, Glucagon-Like Peptide 1, Internal medicine, Free fatty acid receptor 2, medicine, Animals, Humans, Large intestine, Intestinal Mucosa, Rats, Wistar, Receptor, Cell Proliferation, Body Weight, digestive, oral, and skin physiology, Cell Biology, General Medicine, Glucagon-like peptide-1, Rats, Intestines, Protein Transport, medicine.anatomical_structure, Endocrinology, Dietary Supplements, Receptors, Serotonin, 5-HT1, Hormone

Abstract

Glucagon-like peptide 1 (GLP-1) is a multifunctional hormone in glucose metabolism and intestinal function released by enteroendocrine L-cells. The plasma concentration of GLP-1 is increased by indigestible carbohydrates and luminal infusion of short-chain fatty acids (SCFAs). However, the triggers and modulators of the GLP-1 release remain unclear. We hypothesized that SCFAs produced by bacterial fermentation are involved in enteroendocrine cell proliferation and hormone release through free fatty acid receptor 2 (FFA2, also known as FFAR2 or GPR43) in the large intestine. Fructo-oligosaccharide (Fructo-OS), fermentable indigestible carbohydrate, was used as a source of SCFAs. Rats were fed an indigestible-carbohydrate-free diet (control) or a 5% Fructo-OS-containing diet for 28 days. FFA2-, GLP-1-, and 5-hydroxytryptamine (5-HT)-positive enteroendocrine cells were quantified immunohistochemically in the colon, cecum, and terminal ileum. The same analysis was performed in surgical specimens from human lower intestine. The coexpression of FFA2 with GLP-1 was investigated both in rats and humans. Fructo-OS supplementation in rats increased the densities of FFA2-positive enteroendocrine cells in rat proximal colon, by over two-fold, relative to control, in parallel with GLP-1-containing L-cells. The segmental distributions of these cells in human were similar to rats fed the control diet. The FFA2-positive enteroendocrine cells were GLP-1-containing L-cells, but not 5-HT-containing EC cells, in both human and rat colon and terminal ileum. Fermentable indigestible carbohydrate increases the number of FFA2-positive L-cells in the proximal colon. FFA2 activation by SCFAs might be an important trigger for produce and release GLP-1 by enteroendocrine L-cells in the lower intestine.

Published

2010

40. Inhalable powder formulation of vasoactive intestinal peptide derivative, [R15,20,21, L17]-VIP-GRR, attenuated neutrophilic airway inflammation in cigarette smoke-exposed rats

Author

Shingen Misaka, Yosuke Aoki, Shizuo Yamada, Asami Ohide, Satomi Onoue, Atsukazu Kuwahara, Shin-ichiro Karaki, and Takahiro Mizumoto

Subjects

Lung Diseases, Male, Eosinophil Peroxidase, Neutrophils, Vasoactive intestinal peptide, Anti-Inflammatory Agents, Pharmaceutical Science, Inflammation, Respiratory Mucosa, Rats, Sprague-Dawley, Smoke, Administration, Inhalation, Tobacco, Animals, Medicine, Peroxidase, COPD, Goblet cell, Lung, medicine.diagnostic_test, business.industry, Respiratory disease, medicine.disease, Rats, Bronchoalveolar lavage, medicine.anatomical_structure, Immunology, Powders, medicine.symptom, business, Biomarkers, Vasoactive Intestinal Peptide, Respiratory tract

Abstract

Cigarette smoke (CS) has been identified as a predominant causative factor for chronic obstructive pulmonary disease (COPD), so CS-exposed rodent model of COPD has drawn considerable interest and attention for fundamental study and drug discovery. In the present study, using experimental COPD model rats, the therapeutic potential of a newly prepared respirable powder (RP) formulation of a long-acting VIP derivative, [Arg15,20,21, Leu17]-VIP-GRR (IK312532), was assessed with a focus on pro-inflammatory biomarkers, morphological and histochemical changes, and infiltrated cells in the respiratory system. CS exposure of rats for 11 days led to the marked infiltration of inflammatory cells, except for eosinophils, in bronchiolar epithelium, followed by goblet cell metaplasia and hyperplasia. However, inhalation of IK312532-RP (50 μg/rat) in the CS-exposed rats resulted in 74 and 71% reductions of granulocyte recruitment in bronchoalveolar lavage fluids and lung tissues, respectively, with 68% decrease of goblet cells. Biomarker study demonstrated that the inhaled IK312532-RP could suppress the CS-evoked increase of myeloperoxidase in both plasma and lung by 87 and 70%, respectively, possibly leading to potent suppression of neutrophilic inflammatory symptoms. The results from TUNEL staining were indicative of apoptotic damage in respiratory tissues of the CS-exposed rats, and there appeared to be marked decrease of TUNEL-positive cells in the CS-exposed rat with inhaled IK312532-RP. The present findings suggest that an inhalable formulation of IK312532 might be efficacious as a therapy for COPD or other airway inflammatory diseases because of its potent immunomodulating activities.

Published

2010

41. Small intestinal development in suckling rats after enteral obestatin administration

Author

Ikuo Kato, Monika Słupecka-Ziemilska, Paweł Kowalczyk, Jarosław Woliński, Agnieszka Rak, Paulina Grzesiak, Michał Jank, Atsukazu Kuwahara, and Alicja Majewska

Subjects

0301 basic medicine, DNA Repair, Physiology, Microarrays, Gene Expression, lcsh:Medicine, Apoptosis, medicine.disease_cause, Enteral administration, Epithelium, 0302 clinical medicine, Animal Cells, Intestine, Small, Medicine and Health Sciences, Intestinal Mucosa, lcsh:Science, Materials, Adiposity, Gastrointestinal tract, Multidisciplinary, Microvilli, Cell Death, Stomach, Obestatin, Ghrelin, Animals, Suckling, Solutions, Bioassays and Physiological Analysis, medicine.anatomical_structure, Physiological Parameters, Cell Processes, 030220 oncology & carcinogenesis, Physical Sciences, Female, Anatomy, Cellular Types, Research Article, medicine.medical_specialty, Materials Science, Aqueous Solutions, Research and Analysis Methods, 03 medical and health sciences, Enteral Nutrition, Internal medicine, Genetics, medicine, Animals, RNA, Messenger, Obesity, Rats, Wistar, business.industry, Gene Expression Profiling, Body Weight, lcsh:R, Biology and Life Sciences, Epithelial Cells, Cell Biology, Small intestine, Gastrointestinal Tract, Biological Tissue, 030104 developmental biology, Endocrinology, Parenteral nutrition, Gene Expression Regulation, Cyclooxygenase 2, Mixtures, lcsh:Q, Saline Solutions, Peptides, business, Digestive System, Oxidative stress

Abstract

This study investigated the effect of enteral administration of obestatin on the development of small intestine, as well as oxidative stress markers and trancriptomic profile of gastrointestinal genes. Suckling rats were assigned to 3 groups treated with: C-saline solution; OL-obestatin (125 nmol/kg BW); OH-obestatin (250 nmol/kg BW) administered twice daily, from the 14th to the 21st day of life. Enteral administration of obestatin in both studied doses had no effect neither on the body weight of animals nor the BMI calculated in the day of euthanasia. Compared to the control group (C), treatment with obestatin resulted in significant changes in the histometry of the small intestinal wall as well as intestinal epithelial cell remodeling. The observed changes and their possible implications for intestinal development were dependent on the dosage of peptide. The enteral administration of high dose (OH) of obestatin significantly decreased its expression in the stomach and increased markers of oxidative stress. The gene profile revealed MAPK3 (mitogen-activated protein kinase-3) as the key regulator gene for obestatin action in the gastrointestinal track. In conclusion, we have showed that enteral administration of obestatin influences the gut mucosa remodeling. It is also suggested that the administration of high dose (OH) has inhibitory effect on the intestinal maturation of suckling rats.

Published

2018

42. Inhalable powder formulation of a stabilized vasoactive intestinal peptide (VIP) derivative: Anti-inflammatory effect in experimental asthmatic rats

Author

Yosuke Aoki, Shingen Misaka, Atsukazu Kuwahara, Shizuo Yamada, Shin-ichiro Karaki, Takahiro Mizumoto, and Satomi Onoue

Subjects

Male, medicine.medical_specialty, Physiology, medicine.drug_class, Vasoactive intestinal peptide, Anti-Inflammatory Agents, Inflammation, Granulocyte, Biochemistry, Anti-inflammatory, Rats, Sprague-Dawley, Pulmonary Disease, Chronic Obstructive, Cellular and Molecular Neuroscience, Endocrinology, Internal medicine, Administration, Inhalation, medicine, Animals, Receptor, Peroxidase, L-Lactate Dehydrogenase, biology, business.industry, respiratory system, Asthma, Rats, Disease Models, Animal, Ovalbumin, medicine.anatomical_structure, Myeloperoxidase, biology.protein, Powders, medicine.symptom, business, Bronchoalveolar Lavage Fluid, Eosinophil peroxidase, Biomarkers, Vasoactive Intestinal Peptide

Abstract

Vasoactive intestinal peptide (VIP) exerts immunomodulating and anti-inflammatory activities through its specific receptors, such as VPAC1 and 2 receptors. Previously, a stabilized VIP derivative, [R(15,20,21), L(17)]-VIP-GRR (IK312532), was proposed as a candidate of anti-asthma drug, and a dry powder inhaler system of IK312532 was also developed for inhalation therapy with minimal systemic side-effects. In the present study, the anti-inflammatory properties of IK312532 respirable powder (RP) were characterized in an asthma/COPD-like animal model, with the use of newly developed ovalbumin (OVA)-RP for lung inflammation. Marked inflammatory events in the lung were observed after OVA-RP challenge in rats as evidenced by significant increase of inflammatory biomarkers such as eosinophil peroxidase (EPO), myeloperoxidase (MPO) and lactate dehydrogenase (LDH). However, intratracheal administration of IK312532-RP led to significant attenuation of plasma EPO, MPO and LDH activities, as well as significant reduction of recruited inflammatory cells in BALF, especially macrophages and eosinophils. In the rats pretreated with IK312532-RP, histochemical examinations revealed that the inflammatory cells infiltrating to the lung and the epithelial wall thickness decreased significantly by 85% and 58%, respectively. Thus, inhalable powder formulation of IK312532 exerts its anti-inflammatory activity by suppressing granulocyte recruitment to the lung and epithelial hyperplasia, followed by the reduction of cytotoxic peroxidases.

Published

2010

43. Expression of the short-chain fatty acid receptor, GPR43, in the human colon

Author

Kazunari Tooyama, Hideaki Tazoe, Hisayoshi Hayashi, Yuichi Suzuki, Atsukazu Kuwahara, Hidefumi Kashiwabara, and Shin-ichiro Karaki

Subjects

Male, Histology, Colon, Physiology, Blotting, Western, Receptors, Cell Surface, Enteroendocrine cell, Butyrate, Biology, Free fatty acid receptor 2, medicine, Humans, Large intestine, RNA, Messenger, Receptor, Aged, Aged, 80 and over, Reverse Transcriptase Polymerase Chain Reaction, Short-chain fatty acid, Cell Biology, General Medicine, Middle Aged, Immunohistochemistry, Molecular biology, Blot, medicine.anatomical_structure, Biochemistry, Peptide YY, Female

Abstract

Short-chain fatty acids (SCFAs), 2-4 carbon monocarboxylates including acetate, propionate and butyrate, are known to have a variety of physiological and pathophysiological effects on the intestine. Previously, we reported that the SCFA receptor, G-protein coupled receptor 43 (GPR43), is expressed by enteroendocrine and mucosal mast cells in the rat intestine. In the present study, expression and localization of GPR43 were investigated in the human large intestine. Gene and protein expression of GPR43 in the human ascending colon was analyzed by reverse transcriptase/polymerase chain reaction and Western blotting, respectively. In addition, localization of GPR43 was investigated by immunohistochemistry. In RT-PCR analysis, GPR43 mRNA was detected in whole wall mRNA samples. Western blotting analysis revealed the expression of GPR43 protein in whole wall and scraped mucosa protein samples, but not in muscle or submucosa. GPR43 immunoreactivity was observed in the intracellularly in enterocytes and in the peptide YY-immunoreactive enteroendocrine cells. These results indicate that the short chain fatty acid receptor, GPR43 is expressed by enteroendocrine L cells containing peptide YY in the human large intestine.

Published

2007

44. Neural FFA3 activation inversely regulates anion secretion evoked by nicotinic ACh receptor activation in rat proximal colon

Author

Izumi, Kaji, Yasutada, Akiba, Kohtarou, Konno, Masahiko, Watanabe, Shunsuke, Kimura, Toshihiko, Iwanaga, Ayaka, Kuri, Ken-Ichi, Iwamoto, Atsukazu, Kuwahara, and Jonathan D, Kaunitz

Subjects

Male, Neurons, Colon, In Vitro Techniques, Receptors, Nicotinic, Enteric Nervous System, Receptors, G-Protein-Coupled, Rats, Sprague-Dawley, Chlorides, Alimentary, Animals, Humans, Carbachol, Propionates, HeLa Cells

Abstract

Luminal short-chain fatty acids (SCFAs) influence gut physiological function via SCFA receptors and transporters. The contribution of an SCFA receptor, free fatty acid receptor (FFA)3, to the enteric nervous system is unknown. FFA3 is expressed in enteric cholinergic neurons. Activation of neural FFA3 suppresses Cl(-) secretion induced by nicotinic ACh receptor activation via a Gi/o pathway. Neural FFA3 may have an anti-secretory function by modulating cholinergic neural reflexes in the enteric nervous system.The proximal colonic mucosa is constantly exposed to high concentrations of microbially-produced short-chain fatty acids (SCFAs). Although luminal SCFAs evoke electrogenic anion secretion and smooth muscle contractility via neural and non-neural cholinergic pathways in the colon, the involvement of the SCFA receptor free fatty acid receptor (FFA)3, one of the free fatty acid receptor family members, has not been clarified. We investigated the contribution of FFA3 to cholinergic-mediated secretory responses in rat proximal colon. FFA3 was immunolocalized to enteroendocrine cells and to the enteric neural plexuses. Most FFA3-immunoreactive nerve fibres and nerve endings were cholinergic, colocalized with protein gene product (PGP)9.5, the vesicular ACh transporter, and the high-affinity choline transporter CHT1. In Ussing chambered mucosa-submucosa preparations (including the submucosal plexus) of rat proximal colon, carbachol (CCh)-induced Cl(-) secretion was decreased by TTX, hexamethonium, and the serosal FFA3 agonists acetate or propionate, although not by an inactive analogue 3-chloropropionate. Serosal application of a selective FFA3 agonist (N-[2-methylphenyl]-[4-furan-3-yl]-2-methyl-5-oxo-1,4,5,6,7,8-hexahydro-quinoline-3-carboxamide; MQC) dose-dependently suppressed the response to CCh but not to forskolin, with an IC50 of 13 μm. Pretreatment with MQC inhibited nicotine-evoked but not bethanechol-evoked secretion. The inhibitory effect of MQC was reversed by pretreatment with pertussis toxin, indicating that FFA3 acts via the Gi/o pathway. Luminal propionate induced Cl(-) secretion via the cholinergic pathway, which was reduced by MQC, as well as by TTX, hexamethonium or removal of the submucosal plexus. These results suggest that the SCFA-FFA3 pathway has a novel anti-secretory function in that it inhibits cholinergic neural reflexes in the enteric nervous system.

Published

2015

45. Fibre-free diet leads to impairment of neuronally mediated muscle contractile response in rat distal colon

Author

Y. Sugiura, Atsukazu Kuwahara, Y. Kubo, Shin-ichiro Karaki, and Retsu Mitsui

Subjects

Dietary Fiber, Male, Serotonin, medicine.medical_specialty, Contraction (grammar), Carbachol, Colon, Physiology, Cell Count, Substance P, Cholinergic Agonists, Biology, Enteric Nervous System, chemistry.chemical_compound, Internal medicine, Enterochromaffin Cells, medicine, Animals, Rats, Wistar, Peristalsis, Endocrine and Autonomic Systems, Gastroenterology, Muscle, Smooth, Animal Feed, Immunohistochemistry, Electric Stimulation, Rats, Endocrinology, chemistry, Tetrodotoxin, Enterochromaffin cell, Reflex, Muscle Contraction, medicine.drug

Abstract

Dietary fibre consumption is known to be beneficial to increase stool bulk and frequency. In contrast, it is unclear whether chronic dietary fibre deficiency affects colonic motor functions, especially neuronally mediated muscle contractions. In this study, rats were fed a fibre-free diet or diet containing dietary fibre (cellulose or guar gum) for 27 days. Furthermore, neurogenic and myogenic contractions were evaluated in circular and longitudinal muscle strips of the distal colon. Additionally, the number of enterochromaffin (EC) cells, which play important roles in the initiation of the peristaltic reflex, was also examined by immunohistochemistry for serotonin. Myogenic contractions induced by carbachol or substance P were examined in the presence of tetrodotoxin. Circular muscle was hyposensitive to carbachol, but longitudinal muscle was hypersensitive to substance P in the fibre-free group. Nerve-mediated circular (5-20 Hz) and longitudinal (1-2 Hz) muscle contractions evoked by electrical field stimulation were attenuated in the fibre-free group and the latter response was almost abolished by atropine, suggesting functional changes of cholinergic neurons. EC cell number was decreased in the fibre-free group. In conclusion, changes in neurogenic and myogenic contractions and a decrease in EC cell number observed may affect colonic motility of the fibre-free group.

Published

2006

46. Role of growth hormone and insulin-like growth factor-1 in the protective effect of ghrelin in ischemia/reperfusion-induced acute pancreatitis

Author

Wieslaw W. Pawlik, Ikuo Kato, Piotr Ceranowicz, Romana Tomaszewska, Jerzy W. Naskalski, Beata Kuśnierz-Cabala, Zygmunt Warzecha, Atsukazu Kuwahara, Artur Dembiński, and Jakub Cieszkowski

Subjects

Male, medicine.medical_specialty, Hypophysectomy, Peptide Hormones, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Growth hormone secretagogue receptor, Ischemia, Insulin-like growth factor, Endocrinology, Internal medicine, medicine, Animals, Insulin-Like Growth Factor I, Rats, Wistar, Pancreas, business.industry, medicine.disease, Ghrelin, Recombinant Proteins, Rats, medicine.anatomical_structure, Pancreatitis, Growth Hormone, Reperfusion Injury, Acute pancreatitis, business

Abstract

Ghrelin, an endogenous ligand for the growth hormone secretagogue receptor, has been shown to exhibit gastroprotective properties. The aim of present study was to determine whether ghrelin administration protects the pancreas against ischemia/reperfusion-induced pancreatitis and, if so, what is the role of growth hormone (GH) and insulin-like growth factor-1 (IGF-1) in this effect. In sham-operated or hypophysectomized rats, acute pancreatitis was induced by pancreatic ischemia followed by reperfusion. Ghrelin (4, 8 or 16 nmol/kg/dose) or IGF-1 (20 nmol/kg/dose) were administered intraperitoneally twice before and during induction of acute pancreatitis. In pituitary-intact rats, treatment with ghrelin attenuated the development of ischemia/reperfusion-induced pancreatitis and this effect was associated with partial reversion of the pancreatitis-evoked decrease in serum concentration of GH and IGF-1. Hypophysectomy eliminated GH from the serum, reduced serum IGF-1 concentration by 90% and increased in the severity of ischemia/reperfusion-induced pancreatitis. Administration of ghrelin was without any beneficial effect in this group of rats. In contrast, administration of IGF-1 in hypophysectomized rats reduced the severity of ischemia/reperfusion-induced pancreatitis in hypophysectomized rats. We conclude that administration of ghrelin inhibits the development of ischemia/reperfusion-induced pancreatitis and this effect is mediated by its influence on the release of GH and IGF-1.

Published

2006

47. Short-chain fatty acid receptor, GPR43, is expressed by enteroendocrine cells and mucosal mast cells in rat intestine

Author

Retsu Mitsui, Toshihiko Iwanaga, John B. Furness, Hiroshi Sugiya, Hisayoshi Hayashi, Ikuo Kato, Shin-ichiro Karaki, and Atsukazu Kuwahara

Subjects

Male, Serotonin, Histology, Colon, Enteroendocrine Cells, Blotting, Western, Ileum, Enteroendocrine cell, Butyrate, Biology, Receptors, G-Protein-Coupled, Pathology and Forensic Medicine, Intestinal mucosa, Free fatty acid receptor 2, medicine, Animals, Peptide YY, Mast Cells, Intestinal Mucosa, Rats, Wistar, Lamina propria, Reverse Transcriptase Polymerase Chain Reaction, digestive, oral, and skin physiology, Short-chain fatty acid, Cell Biology, Fatty Acids, Volatile, Immunohistochemistry, Molecular biology, Rats, medicine.anatomical_structure, Biochemistry

Abstract

Short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate, are the major anions in the large intestinal lumen. They are produced from dietary fiber by bacterial fermentation and are known to have a variety of physiological and pathophysiological effects on the intestine. In the present study, we investigated the expression of the SCFA receptor, GPR43, in the rat distal ileum and colon. Expression of GPR43 was detected by reverse transcriptase/polymerase chain reaction (RT-PCR), Western blotting, and immunohistochemistry. mRNA for GPR43 was detected, by RT-PCR, in extracts of the whole wall and separated mucosa from the ileum and colon and from muscle plus submucosa from the ileum, but not from muscle plus submucosa preparations from the colon. We raised a rabbit antiserum against a synthesized fragment of rat GPR43; this was specific for rat GPR43. GPR43 protein was detected by Western blot analysis in extracts of whole wall and separated mucosa, but not in muscle plus submucosa extracts. By immunohistochemistry, GPR43 immunoreactivity was localized to enteroendocrine cells expressing peptide YY (PYY), whereas 5-hydroxytryptamine (5-HT)-immunoreactive (IR) enteroendocrine cells were not immunoreactive for GPR43. Mast cells of the lamina propria expressing 5-HT were also GPR43-IR. The results of the present study suggest that the PYY-containing enteroendocrine cells and 5-HT-containing mucosal mast cells sense SCFAs via the GPR43 receptor. This is consistent with physiological data showing that SCFAs stimulate the release of PYY and 5-HT from the ileum and colon.

Published

2006

48. Cellular expression of monocarboxylate transporters (MCT) in the digestive tract of the mouse, rat, and humans, with special reference to slc5a8

Author

Atsukazu Kuwahara, Shin-ichiro Karaki, Toshihiko Iwanaga, Ikuo Kato, and Kumiko Takebe

Subjects

Male, Monocarboxylic Acid Transporters, General Biochemistry, Genetics and Molecular Biology, Mice, Cecum, medicine, Gastric mucosa, Animals, Humans, Large intestine, RNA, Messenger, Rats, Wistar, Microscopy, Immunoelectron, Cation Transport Proteins, Parietal cell, Epithelial polarity, Monocarboxylate transporter, biology, Stomach, digestive, oral, and skin physiology, General Medicine, Immunohistochemistry, Molecular biology, Small intestine, Rats, Gastrointestinal Tract, medicine.anatomical_structure, Biochemistry, biology.protein

Abstract

Short-chain fatty acids (SCFA) are monocarboxylates produced by bacterial fermentation that play a crucial role in maintaining homeostasis in the large intestine. Two major transporters for SCFA, monocarboxylate transporter (MCT) and slc5a8 (or SMCT), exist in the digestive tract. The present histochemical study using in situ hybridization and immunohistochemistry revealed the distribution and subcellular localization of the MCT family in the digestive tract of mice, rats, and humans, comparing these with that of slc5a8. The expression of mucosal MCT1 in the mouse and rat was most intense in the cecum, followed by the colon, but low in the stomach and small intestine. Among other MCT subtypes, only MCT2 was detected in the parietal cell region of the gastric mucosa. Slc5a8 had predominant expression sites in the distal half of the large bowel and in the most terminal ileum. The mucosal MCT1 was localized in the basolateral membrane of enterocytes, while slc5a8 was restricted to the apical cell membrane, suggesting the involvement of slc5a8 in the uptake of luminal SCFA, and of MCT1 in the efflux of SCFA and monocarboxylate metabolites towards blood circulation. The large intestine expressed both types of the transporter, but their distribution patterns differed along the longitudinal axis of the intestine and along the perpendicular axis of the mucosa.

Published

2006

49. Xenin-25 induces anion secretion by activating noncholinergic secretomotor neurons in the rat ileum.

Author

Atsukazu Kuwahara, Yuko Kuwahara, Ikuo Kato, Kotoku Kawaguchi, Daiki Harata, Shinji Asano, Toshio Inui, and Yoshinori Marunaka

Abstract

Xenin-25 is a neurotensin-like peptide that is secreted by enteroendocrine cells in the small intestine. Xenin-8 is reported to augment duodenal anion secretion by activating afferent neural pathways. The intrinsic neuronal circuits mediating the xenin-25-induced anion secretion were characterized using the Ussing-chambered, mucosa-submucosa preparation from the rat ileum. Serosal application of xenin-25 increased the short-circuit current in a concentration-dependent manner. The responses were abolished by the combination of Cl−-free and HCO3− -free solutions. The responses were almost completely blocked by TTX (10-6 M) but not by atropine (10-5 M) or hexamethonium (10-4 M). The selective antagonists for neurotensin receptor 1 (NTSR1), neurokinin 1 (NK1), vasoactive intestinal polypeptide (VIP) receptors 1 and 2 (VPAC1 and VPAC2, respectively), and capsaicin, but not 5-hydroxyltryptamine receptors 3 and 4 (5-HT3 and 5-HT4), NTSR2, and A803467, inhibited the responses to xenin-25. The expression of VIP receptors (Vipr) in rat ileum was examined using RT-PCR. The Vipr1 PCR products were detected in the submucosal plexus and mucosa. Immunohistochemical staining showed the colocalization of NTSR1 and NK1 with substance P (SP)- and calbindin-immunoreactive neurons in the submucosal plexus, respectively. In addition, NK1 was colocalized with noncholinergic VIP secretomotor neurons. Based on the results from the present study, xenin-25-induced Cl−/ HCO3− secretion is involved in NTSR1 activation on intrinsic and extrinsic afferent neurons, followed by the release of SP and subsequent activation of NK1 expressed on noncholinergic VIP secretomotor neurons. Finally, the secreted VIP may activate VPAC1 on epithelial cells to induce Cl−/ HCO3− secretion in the rat ileum. Activation of noncholinergic VIP secretomotor neurons by intrinsic primary afferent neurons and extrinsic afferent neurons by postprandially released xenin-25 may account for most of the neurogenic secretory response induced by xenin-25. NEW & NOTEWORTHY This study is the first to investigate the intrinsic neuronal circuit responsible for xenin-25-induced anion secretion in the rat small intestine. We have found that nutrient-stimulated xenin-25 release may activate noncholinergic vasoactive intestinal polypeptide (VIP) secretomotor neurons to promote Cl−/ HCO3− secretion through the activation of VIP receptor 1 on epithelial cells. Moreover, the xenin-25-induced secretory responses are mainly linked with intrinsic primary afferent neurons, which are involved in the activation of neurotensin receptor 1 and neurokinin 1 receptor. [ABSTRACT FROM AUTHOR]

Published

2019

50. Neural and non-neural mediation of propionate-induced contractile responses in the rat distal colon

Author

Atsukazu Kuwahara, Shigeyuki Ono, Retsu Mitsui, and Shin-ichiro Karaki

Subjects

Atropine, medicine.medical_specialty, Contraction (grammar), Colon, Physiology, Prostaglandin, Muscarinic Antagonists, Butyrate, Acetates, Enteric Nervous System, Tonic (physiology), Dioxanes, Piroxicam, chemistry.chemical_compound, Organ Culture Techniques, Piperidines, Internal medicine, medicine, Animals, Cyclooxygenase Inhibitors, Anesthetics, Local, Intestinal Mucosa, Receptor, chemistry.chemical_classification, Dose-Response Relationship, Drug, Endocrine and Autonomic Systems, Gastroenterology, Muscle, Smooth, Fatty Acids, Volatile, Rats, Butyrates, Endocrinology, chemistry, Receptors, Serotonin, Enterochromaffin cell, Propionate, Tetrodotoxin, Serotonin Antagonists, Propionates, Muscle Contraction

Abstract

Short-chain fatty acids (SCFAs), including propionate, butyrate and acetate, are fermentation products of carbohydrates in the colon. We investigated the contractile effects of SCFAs on the rat distal colon. Mechanical activity of the circular mus- cle in strip preparations was recorded in vitro. Propionate and butyrate concentration-dependently (10 lmol L )1 -10 mmol L )1 ) induced rapid, large amplitude phasic contractions (the first phase) followed by tonic contractions (the second phase). Acetate itself had no effect on muscle activity, although preincubation with acetate attenuated both phases of the propionate-induced response. The prop- ionate-induced phasic contraction was attenuated by atropine, tetrodotoxin and the 5-HT4 receptor antag- onist SB-204070. The propionate-induced tonic con- traction was attenuated by the cyclo-oxygenase inhibitor piroxicam. Antagonists of 5-HT1A, 5-HT2A and 5-HT3 receptors had no effect on the responses. Propionate-induced responses were not observed in mucosa-free preparations. These results suggest that propionate acts on receptors in the mucosa causing the release of 5-HT from enterochromaffin cells. 5-HT acts through 5-HT4 receptors on the endings of intrinsic primary afferent neurones that in turn activate cho- linergic motor neurones that contract the circular muscle. Propionate also causes tonic contraction, via prostaglandin release, in the rat distal colon.

Published

2005