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Identification of Physiologically Active Substances as Novel Ligands for MRGPRD

by Fukuchi, Keisuke , Takeda, Shigeki , Uno, Makiko , Nishimura, Satoko , Nara, Futoshi , Oda, Yoko , Agatsuma, Toshinori , Komori, Hironobu , Haga, Tatsuya , Kaneta, Yasuyuki

in Aminoisobutyric Acids - chemistry / Animals / beta-Alanine - chemistry / Binding Sites / Cancer / Cloning / Diethylstilbestrol - chemistry / G proteins / HEK293 Cells / Hormones, Sex / Humans / Libraries / Ligands / Lymphoma / Mice / NIH 3T3 Cells / Plasmids / Protein Binding / Proteins / Receptors, G-Protein-Coupled - chemistry / Receptors, G-Protein-Coupled - metabolism / Spheroids, Cellular - cytology / Spheroids, Cellular - metabolism

2012

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Identification of Physiologically Active Substances as Novel Ligands for MRGPRD

by Fukuchi, Keisuke , Takeda, Shigeki , Uno, Makiko , Nishimura, Satoko , Nara, Futoshi , Oda, Yoko , Agatsuma, Toshinori , Komori, Hironobu , Haga, Tatsuya , Kaneta, Yasuyuki

2012

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Identification of Physiologically Active Substances as Novel Ligands for MRGPRD

by Fukuchi, Keisuke , Takeda, Shigeki , Uno, Makiko , Nishimura, Satoko , Nara, Futoshi , Oda, Yoko , Agatsuma, Toshinori , Komori, Hironobu , Haga, Tatsuya , Kaneta, Yasuyuki

2012

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Journal Article

Identification of Physiologically Active Substances as Novel Ligands for MRGPRD

Fukuchi, Keisuke,

Takeda, Shigeki,

Uno, Makiko,

Nishimura, Satoko,

Nara, Futoshi,

Oda, Yoko,

Agatsuma, Toshinori,

Komori, Hironobu,

Haga, Tatsuya,

Kaneta, Yasuyuki

2012

Overview

Mas-related G-protein coupled receptor member D (MRGPRD) is a G protein-coupled receptor (GPCR) which belongs to the Mas-related GPCRs expressed in the dorsal root ganglia (DRG). In this study, we investigated two novel ligands in addition to beta-alanine: (1) beta-aminoisobutyric acid, a physiologically active substance, with which possible relation to tumors has been seen together with beta-alanine; (2) diethylstilbestrol, a synthetic estrogen hormone. In addition to the novel ligands, we found that transfection of MRGPRD leads fibroblast cells to form spheroids, which would be related to oncogenicity. To understand the MRGPRD novel character, oncogenicity, a large chemical library was screened in order to obtain MRGPRD antagonists to utilize in exploring the character. The antagonist in turn inhibited the spheroid proliferation that is dependent on MRGPRD signaling as well as MRGPRD signals activated by beta-alanine. The antagonist, a small-molecule compound we found in this study, is a potential anticancer agent.

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Publisher

Hindawi Puplishing Corporation,Hindawi Publishing Corporation,John Wiley & Sons, Inc,Hindawi Limited

Subject

Aminoisobutyric Acids - chemistry

/ Animals

/ beta-Alanine - chemistry

/ Binding Sites

/ Cancer

/ Cloning

/ Diethylstilbestrol - chemistry