[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.3839/jabc.2019.028

Aldose reductase inhibition of the methanolic extracts of selected noxious and exotic plants

Lee, Ju Sung (Department of Plant Science and Technology, Chung-Ang University)
Woo, Dong Geon (Sejong Academy of Science and Arts)
Cho, Ga Eul (Sejong Academy of Science and Arts)
Lee, Sanghyun (Department of Plant Science and Technology, Chung-Ang University)

Publication Information

Journal of Applied Biological Chemistry / v.62, no.2, 2019 , pp. 203-209 More about this Journal

Abstract

The inhibition of aldose reductase (AR) by the extracts from sixteen noxious and exotic plants was examined. Among them, Aster pilosus showed the highest inhibition of AR ( $IC_{50}$ value $0.11{\mu}g/mL$ ). This study showed that A. pilosus with promising AR-inhibitory activities can be utilized for the development of natural therapies for treating and managing diabetic complications.

Keywords

Aldose reductase; High-performance liquid chromatography; Noxious plant; Quercetin;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Rodriguez JP, Lee YK, Woo DG, Shim JS, Geraldino PJL, Jacinto SD, Lee S (2018) Flavonoids from Cirsium japonicum var. maackii pappus as inhibitors of aldose reductase and their simultaneous determination. Chem Pap 72: 81-88 DOI
2	Lee J, Lee D-G, Rodriguez JP, Park JY, Cho EJ, Jacinto SD, Lee S (2018) Determination of flavonoids in Acer okamotoanum and their aldose reductase inhibitory activities. Hort Environ Biotechnol 59: 131-137 DOI
3	Quilantang NG, Ryu SH, Park SH, Byun JS, Chun JS, Lee JS, Rodriguez JP, Yun YS, Jacinto SD, Lee S (2018) Inhibitory activity of methanol extracts from different colored flowers on aldose reductase and HPLC-UV analysis of quercetin. Hort Environ Biotechnol 59: 899-907 DOI
4	Lai J-P, Lim YH, Su J, Shen H-M, Ong CN (2007) Identification and characterization of major flavonoids and caffeolyquinic acids in three Compositae plants by LC/DAD-APCI/MS. J Chromatogr B 848: 215-225 DOI
5	Tamura Y, Hattori M, Konno K, Honda H, Ono H, Yoshida M (2003) Triterpenoid and caffeic acid derivatives in the leaves of ragweed, Ambrosia artemisiifolia L. (Asterales: Asteraceae), as feeding stimulants of Ophraella communa LeSage (Coleoptera: Chrysomelidae). Chemoecol 14: 113-118 DOI
6	Sharma P, Mohan L, Srivastava CN (2005) Larvicidal potential of Nerium indicum and Thuja orientalis extracts against malaria and Japanese encephalitis vector. J Environ Biol 26: 657-660
7	Hayman S, Kinoshita JJ (1965) Isolation and properties of lens aldose reductase. Biol Chem 240: 877-882 DOI
8	Alba C, Skalova H, McGregor KF, D'Antonio C, Pysek P (2015) Native and exotic plant species and prescribed fire as revealed by meta-analysis. J Veget Sci 26: 102-113 DOI
9	Cheung AK, Fung MK, Lo AC, Lam TT, So KF, Chung SS, Chung SK (2005) Aldose reductase deficiency prevents diabetes-induced bloodretinal barrier breakdown, apoptosis, and glial reactivation in the retina of db/db mice. Diabetes 54: 3119 -3125 DOI
10	Mok S-Y, Lee S (2013) Identification of flavonoids and flavonoid rhamnosides from Rhododendron mucronulatum for. albiflorum and their inhibitory activities against aldose reductase. Food Chem 136: 969-974 DOI
11	Engerman RL, Kern TS, Larson ME (1994) Nerve conduction and aldose reductase inhibition during 5 years of diabetes or galactosaemia in dogs. Diabetologia 37: 141-144 DOI
12	Brownlee M (2004) Biology and molecular cell biology of diabetic complications. Diabetes 54: 1615-1625 DOI
13	Song W, Wang HJ, Bucheli P, Zhang PF, Wei DZ, Lu YH (2009) Phytochemical profiles of different mulberry (Morus sp.) species from China. J Agric Food Chem 57: 9133-9140 DOI
14	Deschner E, Ruperto J, Wong G, Newmark H (1991) Quercetin and rutin as inhibitors of azoxymethanol-induced colonic neoplasia. Carcinogenesis 12: 1193-1196 DOI
15	Vessal M, Hemmati M, Vasei M (2003) Antidiabetic effects of quercetin in streptozocin-induced diabetic rats. Comp Biochem Physiol C 135: 357-364 DOI
16	Yawadio R, Tanimori S, Morita N (2007) Identification of phenolic compounds isolated from pigmented rices and their aldose reductase inhibitory activities. Food Chem 101: 1616-1625 DOI
17	Boots A, Haenen GRMM, Bast A (2008) Health effects of quercetin: from antioxidant to nutraceutical. Eur J Pharmacol 585: 325-337 DOI
18	Ji Hyun Kim, Sanghyun Lee, Eun Ju Cho, Hyun Young Kim (2019) Neuroprotective effects of kaempferol, quercetin, and its glycosides by regulation of apoptosis. J Korea Acad-Indus Cooper Soc 20: 286-293
19	Varma SD, Mikuni I, Kinoshita JH (1975) Flavonoids as inhibitors of lens aldose reductase. Science 188: 1215-1216 DOI
20	Fossen T, Larsen A, Kiremire B, Andersen O (1999) Flavonoids from blue flowers of Nymphaea caerulea. Phytochemistry 51: 1133-1137 DOI
21	Swaroop A, Gupta P, Sinha K (2005) Simultaneous determination of quercetin, rutin, and coumaric acid in flowers of Rhododendron arboreum by HPTLC. Chromatographia 62: 649-652 DOI
22	Lee J, Rodriguez JP, Quilantang NG, Lee M-H, Cho EJ, Jacinto SD, Lee S (2017) Determination of flavonoids from Perilla frutescens var. japonica seeds and their inhibitory effect on aldose reductase. Appl Biol Chem 60: 155-162 DOI
23	Lee J, Rodriguez JP, Lee KH, Park JY, Kang KS, Hahm D-H, Huh CK, Lee SC, Lee S (2017) Determination of flavonoids from Cirsium japonicum var. maackii and their inhibitory activities against aldose reductase. Appl Biol Chem 60: 487-496 DOI