Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine

Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine

Irritable bowel syndrome (IBS) is a chronic disease that causes abdominal pain and an imbalance of defecation patterns due to gastrointestinal dysfunction. The cause of IBS remains unclear, but intestinal–brain axis problems and neurotransmitters have been suggested as factors. In this study, chanoc...

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Main Authors: Sanung Eom, Woog Jung, Jaeeun Lee, Hye Duck Yeom, Shinhui Lee, Chaelin Kim, Heui-Dong Park, Junho H. Lee
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Molecules
Subjects:
ergot alkaloids
serotonin receptor
chanoclavine
irritable bowel syndrome
Online Access:https://www.mdpi.com/1420-3049/26/5/1211
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spelling doaj-057907c58d0e4753806c3a3e7c2b7ce62021-02-25T00:04:10ZengMDPI AGMolecules1420-30492021-02-01261211121110.3390/molecules26051211Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and ErgonovineSanung Eom0Woog Jung1Jaeeun Lee2Hye Duck Yeom3Shinhui Lee4Chaelin Kim5Heui-Dong Park6Junho H. Lee7Department of Biotechnology, Chonnam National University, Gwangju 61186, KoreaSchool of Food Science and Biotechnology, Kyungpook National University, Daegu 41566, KoreaDepartment of Biotechnology, Chonnam National University, Gwangju 61186, KoreaGoPath Laboratories, Buffalo Grove, IL 60089, USADepartment of Biotechnology, Chonnam National University, Gwangju 61186, KoreaDepartment of Biotechnology, Chonnam National University, Gwangju 61186, KoreaSchool of Food Science and Biotechnology, Kyungpook National University, Daegu 41566, KoreaDepartment of Biotechnology, Chonnam National University, Gwangju 61186, KoreaIrritable bowel syndrome (IBS) is a chronic disease that causes abdominal pain and an imbalance of defecation patterns due to gastrointestinal dysfunction. The cause of IBS remains unclear, but intestinal–brain axis problems and neurotransmitters have been suggested as factors. In this study, chanoclavine, which has a ring structure similar to 5-hydroxytryptamine (5-HT), showed an interaction with the 5-HT<sub>3A</sub> receptor to regulate IBS. Although its derivatives are known to be involved in neurotransmitter receptors, the molecular physiological mechanism of the interaction between chanoclavine and the 5-HT<sub>3A</sub> receptor is unknown. Electrophysiological experiments were conducted using a two-electrode voltage-clamp analysis to observe the inhibitory effects of chanoclavine on <em>Xenopus</em> oocytes in which the h5-HT<sub>3A</sub> receptor was expressed. The co-application of chanoclavine and 5-HT resulted in concentration-dependent, reversible, voltage-independent, and competitive inhibition. The 5-HT<sub>3A</sub> response induced by 5-HT was blocked by chanoclavine with half-maximal inhibitory response concentration (IC<sub>50</sub>) values of 107.2 µM. Docking studies suggested that chanoclavine was positioned close F130 and N138 in the 5-HT<sub>3A</sub> receptor-binding site. The double mutation of F130A and N138A significantly attenuated the interaction of chanoclavine compared to a single mutation or the wild type. These data suggest that F130 and N138 are important sites for ligand binding and activity. Chanoclavine and ergonovine have different effects. Asparagine, the 130th amino acid sequence of the 5-HT<sub>3A</sub> receptor, and phenylalanine, the 138th, are important in the role of binding chanoclavine, but ergonovine has no interaction with any amino acid sequence of the 5-HT<sub>3A</sub> receptor. The results of the electrophysiological studies and of in silico simulation showed that chanoclavine has the potential to inhibit the hypergastric stimulation of the gut by inhibiting the stimulation of signal transduction through 5-HT<sub>3A</sub> receptor stimulation. These findings suggest chanoclavine as a potential antiemetic agent for excessive gut stimulation and offer insight into the mechanisms of 5-HT<sub>3A</sub> receptor inhibition.https://www.mdpi.com/1420-3049/26/5/1211ergot alkaloidsserotonin receptorchanoclavineirritable bowel syndrome
collection DOAJ
language English
format Article
sources DOAJ
author Sanung Eom
Woog Jung
Jaeeun Lee
Hye Duck Yeom
Shinhui Lee
Chaelin Kim
Heui-Dong Park
Junho H. Lee
spellingShingle Sanung Eom
Woog Jung
Jaeeun Lee
Hye Duck Yeom
Shinhui Lee
Chaelin Kim
Heui-Dong Park
Junho H. Lee
Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
Molecules
ergot alkaloids
serotonin receptor
chanoclavine
irritable bowel syndrome
author_facet Sanung Eom
Woog Jung
Jaeeun Lee
Hye Duck Yeom
Shinhui Lee
Chaelin Kim
Heui-Dong Park
Junho H. Lee
author_sort Sanung Eom
title Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
title_short Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
title_full Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
title_fullStr Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
title_full_unstemmed Differential Regulation of Human Serotonin Receptor Type 3A by Chanoclavine and Ergonovine
title_sort differential regulation of human serotonin receptor type 3a by chanoclavine and ergonovine
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-02-01
description Irritable bowel syndrome (IBS) is a chronic disease that causes abdominal pain and an imbalance of defecation patterns due to gastrointestinal dysfunction. The cause of IBS remains unclear, but intestinal–brain axis problems and neurotransmitters have been suggested as factors. In this study, chanoclavine, which has a ring structure similar to 5-hydroxytryptamine (5-HT), showed an interaction with the 5-HT<sub>3A</sub> receptor to regulate IBS. Although its derivatives are known to be involved in neurotransmitter receptors, the molecular physiological mechanism of the interaction between chanoclavine and the 5-HT<sub>3A</sub> receptor is unknown. Electrophysiological experiments were conducted using a two-electrode voltage-clamp analysis to observe the inhibitory effects of chanoclavine on <em>Xenopus</em> oocytes in which the h5-HT<sub>3A</sub> receptor was expressed. The co-application of chanoclavine and 5-HT resulted in concentration-dependent, reversible, voltage-independent, and competitive inhibition. The 5-HT<sub>3A</sub> response induced by 5-HT was blocked by chanoclavine with half-maximal inhibitory response concentration (IC<sub>50</sub>) values of 107.2 µM. Docking studies suggested that chanoclavine was positioned close F130 and N138 in the 5-HT<sub>3A</sub> receptor-binding site. The double mutation of F130A and N138A significantly attenuated the interaction of chanoclavine compared to a single mutation or the wild type. These data suggest that F130 and N138 are important sites for ligand binding and activity. Chanoclavine and ergonovine have different effects. Asparagine, the 130th amino acid sequence of the 5-HT<sub>3A</sub> receptor, and phenylalanine, the 138th, are important in the role of binding chanoclavine, but ergonovine has no interaction with any amino acid sequence of the 5-HT<sub>3A</sub> receptor. The results of the electrophysiological studies and of in silico simulation showed that chanoclavine has the potential to inhibit the hypergastric stimulation of the gut by inhibiting the stimulation of signal transduction through 5-HT<sub>3A</sub> receptor stimulation. These findings suggest chanoclavine as a potential antiemetic agent for excessive gut stimulation and offer insight into the mechanisms of 5-HT<sub>3A</sub> receptor inhibition.
topic ergot alkaloids
serotonin receptor
chanoclavine
irritable bowel syndrome
url https://www.mdpi.com/1420-3049/26/5/1211
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