Acetylcholinesterase Inhibitors from Angelica polymorpha Stem

Kwon, Yongsoo; Kim, Hyun Pyo; Kim, Myong Jo; Chun, Wanjoo

Nat Prod Sci. 2017 Jun;23(2):97-102. 10.20307/nps.2017.23.2.97.

Acetylcholinesterase Inhibitors from Angelica polymorpha Stem

Affiliations

¹College of Pharmacy, Kangwon National University, Chuncheon 24341, Korea. yskwon@kangwon.ac.kr
²College of Agriculture and Life science, Kangwon National University, Chuncheon 24341, Korea.
³School of Medicine, Kangwon National University, Chuncheon 24341, Korea.

KMID: 2387058
DOI: http://doi.org/10.20307/nps.2017.23.2.97

Abstract

Fourteen compounds were isolated from the stem of Angelica polymorpha. On the basis of spectral data, these compounds were identified as isoimperatorin (1), phellopterin (2), bergapten (3), xanthyletin (4), cnidilin (5), geijerine (6), (âˆ’)-3'-acetyl hamaudol (7), 7-demethylsuberosine (8), dehydrogeijerin (9), (âˆ’)-hamaudol (10), (+)-visamminol (11), divaricatol (12), scopoletin (13), and decursidate (14), respectively. Among them, compounds 4 - 6, 8, 9, 13, and 14 were isolated for the first time from A. polymorpha. Dehydrogeijerin (6) and geijerin (9) were isolated for the first time from genus Angelica. All isolates tested for inhibitory activity against acetylcholinesterae. Compounds 1 to 13 showed acetylcholinesterase inhibitory activity with ICâ‚…â‚€ values ranging from 1.4 to 37.5 µM.

Keyword

Angelica polymorpha; Coumarins; Chromones; Acetylcholinesterase inhibitory effect

MeSH Terms

Acetylcholinesterase*
Angelica*
Cholinesterase Inhibitors*
Chromones
Coumarins
Scopoletin
Acetylcholinesterase
Cholinesterase Inhibitors
Chromones
Coumarins
Scopoletin

Figure

Fig. 1. Structures of 1 – 14.

Reference

References

(1). Lee W. T.Standard illustrations of Korean plants; Academy Pub. Co.: Seoul,. 1996. , p. 254.

(2). Editorial Committee of Zhong Hua Ben Cao of State Administration of Traditional Chinese Medicine of People's Republic of China. Zhong Hua Ben Cao; Shanghai Science and Technology Press: Shanghai,. 1999. 892–893.

(3). Yang Y.., Zhang Y.., Ren F. X.., Yu N. J.., Xu R.., Zhao Y. M.Yao Xue Xue Bao,. 2013. 48:718–722.

(4). Yang S. J.., Yao Q. Q.., Li Y. N.., Chen X. X.., Cui S. X.., Bai S. Y.., Wang F. L. J.Asian Nat. Prod. Res. 2012. 14:76–79.

(5). Dan F. J.., Chu L. J.., Tian Y.., Dong J. X.., Cai Z. J.Shizhen Guoyi Guoyao. 2011. 22:299–300.

(6). Yang Y.., Yu N.., Zhang Y.., Ren F.., Zhang A.., Zhao Y.Zhongguo Yaoxue Zazhi. 2010. 45:1320–1323.

(7). Yang Y.., Yu N.., Liang F.., Zhang Y.., Ren F. X.., Zhang A.., Zhao Y.Pharm. J. Chin. PLA. 2010. 26:189–191.

(8). Han S.., Bai S. Y.., Yang S. J. J.Jining Med. Univ. 2010. 33:13–14.

(9). Li Y.., Yang S.., Bai S.Zhongguo Zhong Yao Za Zhi. 2009. 34:854–857.

(10). Pachaly P.., Kroll-Horstmann A.., Sin K. S.Pharmazie. 2000. 55:777–778.

(11). Coyle J. T.., Price D. L.., DeLong M. R.Science. 1983. 219:1184–1190.

(12). Mukherjoo P. K.., Kumar V.., Mal M.., Houghton P. J.Phytomedicine. 2007. 14:289–300.

(13). Houghton P. J.., Ren Y.., Howes M. J.Nat. Prod. Rep. 2006. 23:181–199.

(14). Anand P.., Singh B.Arch. Pharm. Res. 2013. 36:375–399.

(15). Ellman G. L.., Courtney K. D.., Andres Jr. V.., Feather-Stone R. M.Biochem. Pharmacol. 1961. 7:88–95.

(16). Kim S. J.., Chin Y. W.., Yoon K. D.., Ryu M. Y.., Yang M. H.., Lee J. H.., Kim J. W.Kor. J. Pharmacogn. 2008. 39:357–364.

(17). Wu T. S.., Kuoh C. S.., Furukawa H.Chem. Pharm. Bull. 1983. 31:895–900.

(18). Abreu V. G. C.., Silva M. C.., Magalhâes R. M.., Pilo-Veloso D.., Xavier I. F. S.., Oliveira P. M.., Alcântra A. F. C.Acta Amazonica. 2010. 40:711–718.

(19). Lee K. H.., Soine T. O. J.Pharm. Sci. 1969. 58:675–681.

(20). Frank K.., Porzel A.., Masaoud M.., Adam G.., Schmidt J.Phytochemistry. 2001. 56:611–621.

(21). Fujioka T.., Furumi K.., Fujii H.., Okabe H.., Mihashi K.., Nakano Y.., Matsunaga H.., Katano M.., Mori M.Chem. Pharm. Bull. 1999. 47:96–100.

(22). An R. B.., Park B. Y.., Kim J. H.., Kwon O. K.., Lee J. K.., Min B. S.., Ahn K. S.., Oh S. R.., Lee H. K.Nat. Prod. Sci. 2005. 11:79–84.

(23). Park H. Y.., Kwon S. B.., Heo N. K.., Chun W.., Kim M. J.., Kwon Y. J.Korean Soc. Appl. Biol. Chem. 2011. 54:194–199.

(24). Skalicak-Wo niak K.., Mroczek T.., Garrard I.., G owniak K. J.Sep. Sci. 2012. 35:790–797.

(25). Wang L.., Yu M. M.., Chi Y. Q.., Ouyang W. B.., Zang Z.., Zhao Y.Zhongguo Zhong Yao Za Zhi,. 2014. 39:3969–3973.

(26). Kong L. Y.., Yao N. H.Chin. Chem. Lett. 2000. 11:315–318.

(27). Lee H. K.., Oh S. R.., Kwon O. K.., Ahn K. S.., Lee J.., Kim J. C.., Min B. S.., Joung H.Phytother. Res. 2007. 21:406–409.

(28). Steck W.., Mazurek M.Lloydia. 1972. 35:418–439.

(29). Cairns N.., Harwood L. M.., Astles D. P.Tetrahedron. 1992. 36:7581–7590.

(30). Domínguez X. A.., Cano G.., Luna I.., Dieck A.Phytochemistry,. 1977. 16:1096.

(31). Ritchie E.., Taylor W. C.., Young L. M.Aust. J. Chem. 1968. 21:1381–1382.

(32). Lahey F. N.., Wluka D. J.Aust. J. Chem. 1955. 8:125–128.

(33). Kim, D. K; Lim J. P.., Yang J. H.., Eom D. O.., Eun J. S.., Leem K. H.Arch. Pharm. Res. 2002. 25:856–859.

(34). Lee J. H.., Lee K. T.., Yang J. H.., Baek N. I.., Kim D. K.Arch. Pharm. Res. 2004. 27:53–56.

(35). Kang S. Y.., Lee K. Y.., Sung S. H.., Park M. J.., Kim Y. C. J.Nat. Prod. 2001. 64:683–685.

Acetylcholinesterase Inhibitors from Angelica polymorpha Stem

Abstract

Keyword

MeSH Terms

Figure

Reference

References

Cited

Save citations to file

Email citations