Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity

Salicornia herbacea (glasswort) is a traditional Asian medicinal plant which exhibits multiple nutraceutical and pharmaceutical properties. Quercetin-3-glucoside and isorhamnetin-3-glucoside are the major flavonoid glycosides found in S. herbacea. Multiple researchers have shown that flavonoid glyco...

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Autores principales: Ahn, Hyung Jin, You, Hyun Ju, Park, Myeong Soo, Li, Zhipeng, Choe, Deokyeong, Johnston, Tony Vaughn, Ku, Seockmo, Ji, Geun Eog
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2020
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9049170/
https://www.ncbi.nlm.nih.gov/pubmed/35498283
http://dx.doi.org/10.1039/c9ra08059g
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author Ahn, Hyung Jin
You, Hyun Ju
Park, Myeong Soo
Li, Zhipeng
Choe, Deokyeong
Johnston, Tony Vaughn
Ku, Seockmo
Ji, Geun Eog
author_facet Ahn, Hyung Jin
You, Hyun Ju
Park, Myeong Soo
Li, Zhipeng
Choe, Deokyeong
Johnston, Tony Vaughn
Ku, Seockmo
Ji, Geun Eog
author_sort Ahn, Hyung Jin
collection PubMed
description Salicornia herbacea (glasswort) is a traditional Asian medicinal plant which exhibits multiple nutraceutical and pharmaceutical properties. Quercetin-3-glucoside and isorhamnetin-3-glucoside are the major flavonoid glycosides found in S. herbacea. Multiple researchers have shown that flavonoid glycosides can be structurally transformed into minor aglycone molecules, which play a significant role in exerting physiological responses in vivo. However, minor aglycone molecule levels in S. herbacea are very low. In this study, Bifidobacterium animalis subsp. lactis AD011, isolated from infant feces, catalyzed >85% of quercetin-3-glucoside and isorhamnetin-3-glucoside into quercetin and isorhamnetin, respectively, in 2 h, without breaking down flavonoid backbones. Functionality analysis demonstrated that the quercetin and isorhamnetin produced showed improved anti-inflammatory activity vs. the original source molecules against lipopolysaccharide induced RAW 264.7 macrophages. Our report highlights a novel protocol for rapid quercetin and isorhamnetin production from S. herbacea flavonoids and the applicability of quercetin and isorhamnetin as nutraceutical molecules with enhanced anti-inflammatory properties.
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spelling pubmed-90491702022-04-29 Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity Ahn, Hyung Jin You, Hyun Ju Park, Myeong Soo Li, Zhipeng Choe, Deokyeong Johnston, Tony Vaughn Ku, Seockmo Ji, Geun Eog RSC Adv Chemistry Salicornia herbacea (glasswort) is a traditional Asian medicinal plant which exhibits multiple nutraceutical and pharmaceutical properties. Quercetin-3-glucoside and isorhamnetin-3-glucoside are the major flavonoid glycosides found in S. herbacea. Multiple researchers have shown that flavonoid glycosides can be structurally transformed into minor aglycone molecules, which play a significant role in exerting physiological responses in vivo. However, minor aglycone molecule levels in S. herbacea are very low. In this study, Bifidobacterium animalis subsp. lactis AD011, isolated from infant feces, catalyzed >85% of quercetin-3-glucoside and isorhamnetin-3-glucoside into quercetin and isorhamnetin, respectively, in 2 h, without breaking down flavonoid backbones. Functionality analysis demonstrated that the quercetin and isorhamnetin produced showed improved anti-inflammatory activity vs. the original source molecules against lipopolysaccharide induced RAW 264.7 macrophages. Our report highlights a novel protocol for rapid quercetin and isorhamnetin production from S. herbacea flavonoids and the applicability of quercetin and isorhamnetin as nutraceutical molecules with enhanced anti-inflammatory properties. The Royal Society of Chemistry 2020-02-03 /pmc/articles/PMC9049170/ /pubmed/35498283 http://dx.doi.org/10.1039/c9ra08059g Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
Ahn, Hyung Jin
You, Hyun Ju
Park, Myeong Soo
Li, Zhipeng
Choe, Deokyeong
Johnston, Tony Vaughn
Ku, Seockmo
Ji, Geun Eog
Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title_full Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title_fullStr Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title_full_unstemmed Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title_short Microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in Salicornia herbacea and their contribution to improved anti-inflammatory activity
title_sort microbial biocatalysis of quercetin-3-glucoside and isorhamnetin-3-glucoside in salicornia herbacea and their contribution to improved anti-inflammatory activity
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9049170/
https://www.ncbi.nlm.nih.gov/pubmed/35498283
http://dx.doi.org/10.1039/c9ra08059g
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