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Activation of ectopic olfactory receptor 544 induces GLP-1 secretion and regulates gut inflammation

Authors
Wu, ChunyanJeong, Mi-YoungKim, Jung YeonLee, GiljaeKim, Ji-SunCheong, Yu EunKang, HyenaCho, Chung HwanKim, JiminPark, Min KyungShin, You KyoungKim, Kyoung HeonSeol, Geun HeeKoo, Seung HoiKo, GwangPyoLee, Sung-Joon
Issue Date
1-1월-2021
Publisher
TAYLOR & FRANCIS INC
Keywords
Olfr544; ectopic olfactory receptor; GLP-1; gut microbiome; metabolome; colonic inflammation
Citation
GUT MICROBES, v.13, no.1
Indexed
SCIE
SCOPUS
Journal Title
GUT MICROBES
Volume
13
Number
1
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/137818
DOI
10.1080/19490976.2021.1987782
ISSN
1949-0976
Abstract
Olfactory receptors are ectopically expressed in extra-nasal tissues. The gut is constantly exposed to high levels of odorants where ectopic olfactory receptors may play critical roles. Activation of ectopic olfactory receptor 544 (Olfr544) by azelaic acid (AzA), an Olfr544 ligand, reduces adiposity in mice fed a high-fat diet (HFD) by regulating fuel preference to fats. Herein, we investigated the novel function of Olfr544 in the gut. In GLUTag cells, AzA induces the cAMP-PKA-CREB signaling axis and increases the secretion of GLP-1, an enteroendocrine hormone with anti-obesity effects. In mice fed a HFD and orally administered AzA, GLP-1 plasma levels were elevated in mice. The induction of GLP-1 secretion was negated in cells with Olfr544 gene knockdown and in Olfr544-deficient mice. Gut microbiome analysis revealed that AzA increased the levels of Bacteroides acidifaciens and microbiota associated with antioxidant pathways. In fecal metabolomics analysis, the levels of succinate and trehalose, metabolites correlated with a lean phenotype, were elevated by AzA. The function of Olfr544 in gut inflammation, a key feature in obesity, was further investigated. In RNA sequencing analysis, AzA suppressed LPS-induced activation of inflammatory pathways and reduced TNF-alpha and IL-6 expression, thereby improving intestinal permeability. The effects of AzA on the gut metabolome, microbiome, and colon inflammation were abrogated in Olfr544-KO mice. These results collectively demonstrated that activation of Olfr544 by AzA in the gut exerts multiple effects by regulating GLP-1 secretion, gut microbiome and metabolites, and colonic inflammation in anti-obesogenic phenotypes and, thus, may be applied for obesity therapeutics.
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Koo, Seung Hoi
생명과학대학 (생명과학부)
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