3,5-Di-O-caffeoyl-epi-quinic Acid from the Leaves and Stems of Erigeron annuus Inhibits Protein Glycation, Aldose Reductase, and Cataractogenesis

3,5-Di-O-caffeoyl-epi-quinic Acid from the Leaves and Stems of Erigeron annuus Inhibits Protein Glycation, Aldose Reductase, and Cataractogenesis

In our ongoing project directed toward the discovery of novel treatments for diabetic complications from herbal medicines, sixteen compounds including three caffeoylquinic acids and four flavonoids were isolated from an EtOAc-soluble extract of the stems and leaves of Erigeron annuus. All the isolat...

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Veröffentlicht in:Biological & Pharmaceutical Bulletin 2010/02/01, Vol.33(2), pp.329-333
Hauptverfasser: Jang, Dae Sik, Yoo, Nam Hee, Kim, Nan Hee, Lee, Yun Mi, Kim, Chan-Sik, Kim, Junghyun, Kim, Joo-Hwan, Kim, Jin Sook
Format: Artikel
Sprache:eng
Schlagworte:
advanced glycation end product
Aldehyde Reductase - antagonists & inhibitors
Aldehyde Reductase - metabolism
aldose reductase
Animals
caffeoylquinic acid
Cataract - enzymology
Cataract - metabolism
Cataract - prevention & control
diabetic complication
Dose-Response Relationship, Drug
Erigeron - chemistry
Erigeron annuus
Glycation End Products, Advanced - antagonists & inhibitors
Glycation End Products, Advanced - metabolism
Lens, Crystalline - drug effects
Lens, Crystalline - metabolism
Male
Monosaccharides - pharmacology
Monosaccharides - therapeutic use
Organ Culture Techniques
Plant Extracts - pharmacology
Plant Extracts - therapeutic use
Plant Leaves - chemistry
Plant Stems - chemistry
Quinic Acid - analogs & derivatives
Quinic Acid - pharmacology
Quinic Acid - therapeutic use
Rats
Rats, Sprague-Dawley
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Zusammenfassung:In our ongoing project directed toward the discovery of novel treatments for diabetic complications from herbal medicines, sixteen compounds including three caffeoylquinic acids and four flavonoids were isolated from an EtOAc-soluble extract of the stems and leaves of Erigeron annuus. All the isolates were evaluated in vitro for inhibitory activity on the formation of advanced glycation end products (AGEs) and rat lens aldose reductase (RLAR). Of these, 3,5-di-O-caffeoyl-epi-quinic acid (3) exhibited the most potent inhibitory activity in both the AGEs and aldose reductase (AR) assays. Compound 3 markedly reduced AGEs-bovin serum albumin (BSA) cross-linking in a dose-dependent manner. Furthermore, opacity of lenses was significantly prevented when they were treated with 3 in an ex vivo experiment.
ISSN:0918-6158
1347-5215
DOI:10.1248/bpb.33.329