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Journal of Natural Medicines
Erschienen in: Journal of Natural Medicines 1/2022

22.09.2021 | Original Paper

Cliniatines A–C, new Amaryllidaceae alkaloids from Clivia miniata, inhibiting Acetylcholinesterase

verfasst von: Yusuke Hirasawa, Tomoko Tanaka, Shiro Hirasawa, Chin Piow Wong, Nahoko Uchiyama, Toshio Kaneda, Yukihiro Goda, Hiroshi Morita

Erschienen in: Journal of Natural Medicines | Ausgabe 1/2022

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Abstract

Cliniatines A–C (13), three new Amaryllidaceae alkaloids, consisting of 2,6-dimetylpyridine and lycorine-type and/or galanthamine-type were isolated from Clivia miniata (Lindl.) Bosse. The structures and absolute configurations of 13 were elucidated based on spectroscopic data and chemical correlation. Cliniatines A–C showed moderate inhibitory activity against acetylcholinesterase.

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Literatur
1.
Crouch NR, Mulholland DA, Pohl TL, Ndlovu ES (2003) The ethnobotany and chemistry of the genus Clivia (Amaryllidaceae). Afr J Bot 69:144–147CrossRef
2.
Musara C, Aladejana EB, Aladejana AE (2021) Clivia miniata (Lindl.) Bosse, (Amaryllidaceae): Botany, medicinal uses, phytochemistry and pharmacological properties. J Appl Pharm Sci 11(2):012–018
3.
Govindachari TR, Thyagarajan BS (1954) Structure of lycorine. Chem Ind 1:374–375
4.
Briggs CK, Highet PF, Highet RJ, Wildman WC (1956) Alkaloids of the Amaryllidaceae. VII. Alkaloids containing the hemiacetal of lactone group1. J Am Chem Soc 78:2899–2904CrossRef
5.
Kobayashi S, Ishikawa H, Sasakawa E, Kihara M, Shingu T, Kato A (1980) Isolation of clivacetine from Clivia miniata Regel. (Amaryllidaceae). Chem Pharm Bull 28:1827–1831CrossRef
6.
Boit HG, Mehlis B (1961) Structure of clivimine and clivonine. Sci Nat 48:603CrossRef
7.
Kobayashi S, Shingu T, Uyeo S (1956) Structure of galanthamine and lycoramine. Chem Ind 1(11):177–178
8.
Bartolucci C, Perola E, Pilger C, Fels G, Lamba D (2001) Three-dimensional structure of a complex of galanthamine (nivalin) with acetylcholinesterase from Torpedo californica: implications for the design of new anti-Alzheimer drugs. Proteins 42:182–191CrossRef
9.
Berkov S, Codina C, Viladomat F, Bastida J (2008) N-Alkylated galanthamine derivatives: potent acetylcholinesterase inhibitors from Leucojum aestivum. Bioorg Med Chem Lett 18:2263–2266CrossRef
10.
Hirasawa Y, Dai X, Deguchi J, Hatano S, Sasaki T, Ohtsuka R, Nugroho AE, Kaneda T, Morita H (2019) New vasorelaxant indole alkaloids, taberniacins A and B, from Tabernaemontana divaricata. J Nat Med 73:533–540CrossRef
11.
Amelia P, Nugroho AE, Hirasawa Y, Kaneda T, Tougan T, Horii T, Morita H (2019) Indole alkaloids from Tabernaemontana macrocarpa Jack. J Nat Med 73:820–825CrossRef
12.
Tang Y, Nugroho AE, Hirasawa Y, Tougan T, Horii T, Hadi AHA, Morita H (2019) Leucophyllinines A and B, bisindole alkaloids from Leuconotis eugeniifolia. J Nat Med 73:533–540CrossRef
13.
Hirasawa Y, Mitsui C, Uchiyama N, Hakamatsuka T, Morita H (2018) Hupercumines A and B, Lycopodium alkaloids from Huperzia cunninghamioides, inhibiting acetylcholinesterase. Org Lett 20:1384–1387CrossRef
14.
Nugroho AE, Zhang W, Hirasawa Y, Tang Y, Wong CP, Kaneda T, Hadi AHA, Morita H (2018) Bisleuconothines B-D, modified eburnane–aspidosperma bisindole alkaloids from Leuconotis griffithii. J Nat Prod 81:2600–2604CrossRef
15.
Nugroho AE, Inoue D, Wong CP, Hirasawa Y, Kaneda T, Shirota O, Hadi AHA, Morita H (2018) Reinereins A and B, new onocerane triterpenoids from Reinwardtiodendron cinereum. J Nat Med 72:588–592CrossRef
16.
Kihara M, Koike T, Imakura Y, Kida K, Shingu T, Kobayashi S (1987) Alkaloidal Constituents of Hymenocallis rotata HERB. (Amaryllidaceae). Chem Pharm Bull 35:1070–1075CrossRef
17.
Kobayashi S, Imakura Y, Ishikawa H, Sasakawa E (1980) Biogenetic-type synthesis of clivimine from clivacetine. Heterocycles 14:751–754CrossRef
18.
Wagner J, Pham HL, Döpke W (1996) Alkaloids from Hippeastrum equestre Herb. -5. Circular dichroism studies. Tetrahedron 52:6591–6600CrossRef
19.
Mehlis B (1965) Structure of clivimine and clivonine. Sci Nat 52(2):33–34CrossRef
20.
Döpke W, Bienert M (1967) Structures and stereochemistry of clivonine and clivimine. Tetrahedron Lett 8:451–457CrossRef
21.
Kitagawa T, Uyeo S, Yokoyama N (1959) Stereochemistry of lycorenine, homolycorine, pluviine, and their hydrogenation products. J Chem Soc 1959:3741–3751CrossRef
22.
Shiro M, Sato T, Koyama H (1966) Crystal structure of dihydrolycorine hydrobromide. Chem Ind 1(28):1229
23.
Jeffs PW, Hansen JF, Döpke W, Bienert M (1971) The structure and stereochemistyr of clivonine. Tetrahedron 27:5065–5079CrossRef
24.
Schnoes HK, Smith DH, Burlingame AL, Jeffs PW, Döpke W (1968) Mass spectra of amaryllidaceae alkaloids: the lycorenine series. Tetrahedron 24:2825–2837CrossRef
25.
Ellman GL, Courtney KD, Andres V Jr, Feather-Stone RM (1961) A new and rapid colorimetric determination of acetylcholinesterase activity. Biochem Pharmacol 7:88–95CrossRef
Metadaten
Titel
Cliniatines A–C, new Amaryllidaceae alkaloids from Clivia miniata, inhibiting Acetylcholinesterase
verfasst von
Yusuke Hirasawa
Tomoko Tanaka
Shiro Hirasawa
Chin Piow Wong
Nahoko Uchiyama
Toshio Kaneda
Yukihiro Goda
Hiroshi Morita
Publikationsdatum
22.09.2021
Verlag
Springer Singapore
Erschienen in
Journal of Natural Medicines / Ausgabe 1/2022
Print ISSN: 1340-3443
Elektronische ISSN: 1861-0293
DOI
https://doi.org/10.1007/s11418-021-01570-6

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