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The molecular mechanism of phytosphingosine binding to FFAR4/GPR120 differs from that of other fatty acids

発表形態:
原著論文
主要業績:
主要業績
単著・共著:
共著
発表年月:
2021年11月
DOI:
10.1002/2211-5463.13301
会議属性:
指定なし
査読:
有り
リンク情報:

日本語フィールド

著者:
Nagasawa, Tomotaka; Horitani, Masaki; Kawaguchi, Shin ichi; Higashiyama, Shigeki; Hama, Yoichiro; Mitsutake, Susumu
題名:
The molecular mechanism of phytosphingosine binding to FFAR4/GPR120 differs from that of other fatty acids
発表情報:
FEBS Open Bio 巻: 11 号: 11 ページ: 3081 - 3089
キーワード:
概要:
Free fatty acid receptor 4 (FFAR4)/GPR120 comprises a receptor for medium- and long-chain fatty acids. We previously identified phytosphingosine (PHS) as a novel ligand of FFAR4. Although many natural FFAR4 ligands have carboxyl groups, PHS does not, thus suggesting that binding to FFAR4 is driven by a completely different mechanism than other natural ligands such as α-linolenic acid (ALA). To test this hypothesis, we performed docking simulation analysis using a FFAR4 homology model based on a protein model derived from the crystal structure of activated turkey beta-1 adrenoceptor. The docking simulation revealed that the probable hydrogen bonds to FFAR4 differ between various ligands. In particular, binding was predicted between R264 of the FFAR4 and the oxygen of the carboxylate group in ALA, as well as between E249 of the FFAR4 and the oxygen of the hydroxy group at the C4-position in PHS. Alanine substitution at E249 (E249A) dramatically reduced PHS-induced FFAR4 activation but demonstrated a weaker effect on ALA-induced FFAR4 activation. Kinetic analysis and Km values clearly demonstrated that the E249A substitution resulted in reduced affinity for PHS but not for ALA. Additionally, we observed that sphingosine, lacking a hydroxyl group at C4-position, could not activate FFAR4. Our data show that E249 of the FFAR4 receptor is crucial for binding to the hydroxy group at the C4-position in PHS, and this is a completely different molecular mechanism of binding from ALA. Because GPR120 agonists have attracted attention as treatments for type 2 diabetes, our findings may provide new insights into their development.
抄録:

英語フィールド

Author:
Nagasawa, Tomotaka; Horitani, Masaki; Kawaguchi, Shin ichi; Higashiyama, Shigeki; Hama, Yoichiro; Mitsutake, Susumu
Title:
The molecular mechanism of phytosphingosine binding to FFAR4/GPR120 differs from that of other fatty acids
Announcement information:
FEBS Open Bio Vol: 11 Issue: 11 Page: 3081 - 3089
An abstract:
Free fatty acid receptor 4 (FFAR4)/GPR120 comprises a receptor for medium- and long-chain fatty acids. We previously identified phytosphingosine (PHS) as a novel ligand of FFAR4. Although many natural FFAR4 ligands have carboxyl groups, PHS does not, thus suggesting that binding to FFAR4 is driven by a completely different mechanism than other natural ligands such as α-linolenic acid (ALA). To test this hypothesis, we performed docking simulation analysis using a FFAR4 homology model based on a protein model derived from the crystal structure of activated turkey beta-1 adrenoceptor. The docking simulation revealed that the probable hydrogen bonds to FFAR4 differ between various ligands. In particular, binding was predicted between R264 of the FFAR4 and the oxygen of the carboxylate group in ALA, as well as between E249 of the FFAR4 and the oxygen of the hydroxy group at the C4-position in PHS. Alanine substitution at E249 (E249A) dramatically reduced PHS-induced FFAR4 activation but demonstrated a weaker effect on ALA-induced FFAR4 activation. Kinetic analysis and Km values clearly demonstrated that the E249A substitution resulted in reduced affinity for PHS but not for ALA. Additionally, we observed that sphingosine, lacking a hydroxyl group at C4-position, could not activate FFAR4. Our data show that E249 of the FFAR4 receptor is crucial for binding to the hydroxy group at the C4-position in PHS, and this is a completely different molecular mechanism of binding from ALA. Because GPR120 agonists have attracted attention as treatments for type 2 diabetes, our findings may provide new insights into their development.


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