[논문]Inhibitory effects of Synurus excelsus and Weigela subsessilis on aldose reductase and HPLC-UV analysis of scopolin, scopoletin, and quercetin

Quilantang, Norman G.; Lee, Ju Sung; Ryu, Seo Hyun; Park, Se Hoon; Byun, Jae Sang; Chun, Je Sung; Jacinto, Sonia D.; Lee, Sanghyun

doi:10.3839/jabc.2018.020

Inhibitory effects of Synurus excelsus and Weigela subsessilis on aldose reductase and HPLC-UV analysis of scopolin, scopoletin, and quercetin 원문보기

Journal of applied biological chemistry, v.61 no.2, 2018년, pp.135 - 139

Quilantang, Norman G. (Department of Integrative Plant Science, Chung-Ang University) , Lee, Ju Sung (Department of Integrative Plant Science, Chung-Ang University) , Ryu, Seo Hyun (Seoul Science High School) , Park, Se Hoon (Seoul Science High School) , Byun, Jae Sang (Seoul Science High School) , Chun, Je Sung (Seoul Science High School) , Jacinto, Sonia D. (Institute of Biology, University of the Philippines) , Lee, Sanghyun (Department of Integrative Plant Science, Chung-Ang University)

Abstract ▼ AI-Helper

The inhibition of aldose reductase (AR) has been shown to prevent the progression of the many complications associated with diabetic hyperglycemia. Several compounds purified from various plant sources have exhibited potent inhibition against AR. In this study, the inhibitory effects of the methanol extracts of the flowers of Synurus excelsus and Weigela subsessilis on AR were determined in vitro. Scopolin and scopoletin are coumarins isolated from the flowers of S. excelsus and W. subsessilis; and quercetin is a known AR inhibitor present in many flowers. To determine and quantify their presence in both plants, HPLC-UV analysis of all three compounds was performed. S. excelsus and W. subsessilis showed potent inhibition against AR having $IC_{50}$ values of 0.17 and $0.14{\mu}g/mL$, respectively. The concentration of scopolin in S. excelsus and W. subsessilis were 34.71 and 174.14 mg/g extract, respectively. Scopoletin was detected in S. excelsus at 3.41 mg/g extract, whereas quercetin was not detected in both plants. This study shows that S. excelsus and W. subsessilis exhibited promising AR inhibitory effects and are both sources of coumarins.

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The results of this study provide preliminary information regarding the ARI activities of the plants examined. Based on the results of our experiment, both S.

제안 방법

An Agilent HPLC system was used for the analysis. Chromatographic separation was performed with a reverse-phase INNO C₁₈ (4.
The ARI activity of the MeOH extracts of the flowers of S. excelsus and W. subsessilis was evaluated in this study. The results of the ARI assay are summarized in Table 1.
Hence, these compounds were analyzed in this study. To the best of our knowledge, this study is the first to describe an analytical method for the determination of all three compounds in S. excelsus and W. subsessilis.

대상 데이터

Dimethyl sulfoxide (DMSO), 3,3'-tetramethyleneglutaric acid (TMG), DL-glyceraldehyde, β-NADPH, and standard compounds (scopolin and scopoletin) were purchased from Sigma-Aldrich Chemicals (St. Louis, MO, USA).
The flowrate and injection volume were 1 mL/min and 10 μL, respectively. The UV detector was set at 270 nm.
The flowrate and injection volume were 1 mL/min and 10 μL, respectively. The UV detector was set at 330 nm.

이론/모형

albiflorum [12]. An Allegra X-30R refrigerated benchtop centrifuge (Beckman Coulter^TM, Indianapolis, IN, USA) and an Optizen 2120 UV spectrophotometer (Mecasys Co., Daejeon, Korea) were used for the ARI assay.

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Inhibitory effects of Synurus excelsus and Weigela subsessilis on aldose reductase and HPLC-UV analysis of scopolin, scopoletin, and quercetin 원문보기

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Inhibitory effects of Synurus excelsus and Weigela subsessilis on aldose reductase and HPLC-UV analysis of scopolin, scopoletin, and quercetin 원문보기

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