Protoflavonoids from Ferns Impair Centrosomal Integrity of Tumor Cells

Isabelle Pouny; Chantal Etiévant; Laurence Marcourt; Isabelle Huc-Dumas; Muriel Batut; Frédéric Girard; Michel Wright; Georges Massiot

doi:10.1055/s-0030-1250407

Planta Medica, Table of Contents

Planta Med 2011; 77(5): 461-466
DOI: 10.1055/s-0030-1250407

Natural Product Chemistry

Original Papers
© Georg Thieme Verlag KG Stuttgart · New York

Protoflavonoids from Ferns Impair Centrosomal Integrity of Tumor Cells

Isabelle Pouny¹ , Chantal Etiévant² , Laurence Marcourt¹ , Isabelle Huc-Dumas¹ , Muriel Batut¹ , Frédéric Girard² , Michel Wright² , Georges Massiot¹

¹Unité Mixte de Service 2597, Centre National de la Recherche Scientifique (CNRS) – Pierre Fabre,, Institut des Sciences et Technologies du Médicament de Toulouse (ISTMT), Toulouse, France
²Unité Mixte de Recherche 2587, Centre National de la Recherche Scientifique (CNRS) – Pierre Fabre, Institut des Sciences et Technologies du Médicament de Toulouse (ISTMT), Toulouse, France

Abstract

Six protoflavonoids, including two new compounds, were isolated during a large scale screening of fern extracts for original interaction with mitosis. The new compounds isolated from Phegopteris decursive-pinnata and Equisetum fluviatile were 2′,3′-dihydroprotogenkwanone (1) and 2′,3′-dihydro-2′-hydroxyprotoapigenone (2). Known compounds were: protoapigenone, protogenkwanone, protoapigenin, and 4′-O-β-D-glucopyranosyl protoapigenin. They showed a cytotoxic activity against HeLa cells at a micromolar level. IC₅₀ values were 2 µM for compound 1, > 10 µM for compound 2, and respectively 2.4, 0.6, > 10 µM for the known compounds. Their cytotoxic effects were associated with phenotypic changes never observed before and characterized by the loss of centrosomal γ-tubulin labelling in both mitotic and interphasic cells.

Key words

protoflavonoids - ferns - Phegopteris decursive‐pinnata - Thelypteridaceae - Equisetum fluviatile - Equisetaceae - γ‐tubulin - centrosome

Full Text

References

1 Sudakin V, Yen T J. Targeting mitosis for anti-cancer therapy. Bio Drugs. 2007; 21 225-233
2 Imperato F. Bioactive natural products from Pteridophyta. Recent Res Dev Phytochem. 2001; 5 191-228
3 Imperato F. Advances in phytochemistry of Pteridophyta since 1999. Curr Top Phytochem. 2007; 8 1-21
4 Joshi H C, Palacios M J, McNamara L, Cleveland D W. γ-Tubulin is a centrosomal protein required for cell cycle-dependent microtubule nucleation. Nature. 1992; 356 80-83
5 Yuba-Kubo A, Kubo A, Hata M, Tsukita S. Gene knockout analysis of two γ-tubulin isoforms in mice. Dev Biol. 2005; 282 361-373
6 Haren L, Remy M H, Bazin I, Callebaut I, Wright M, Merdes A. NEDD1-dependent recruitment of the γ-tubulin ring complex to the centrosome is necessary for centriole duplication and spindle assembly. J Cell Biol. 2006; 172 505-515
7 Lajoie-Mazenc I, Tollon Y, Detraves C, Julian M, Moisand A, Gueth-Hallonet C, Debec A, Salles-Passador I, Puget A, Mazarguil H, Raynaud-Messina B, Wright M. Recruitment of antigenic gamma-tubulin during mitosis in animal cells: presence of gamma-tubulin in the mitotic spindle. J Cell Sci. 1994; 107 2825-2837
8 Krzaczkowski L, Wright M, Rebérioux D, Massiot G, Etiévant C, Gairin J E. Pharmacological screening of bryophyte extracts that inhibit growth and induce abnormal phenotypes in human HeLa cancer cells. Fundam Clin Pharmacol. 2009; 23 473-482
9 Quadri-Spinelli T, Heilmann J, Rali T, Sticher O. Bioactive coumarin derivatives from the fern Cyclosorus interruptus. Planta Med. 2000; 66 728-733
10 Lin A S, Chang F R, Wu C C, Liaw C C, Wu Y C. New cytotoxic flavonoids from Thelypteris torresiana. Planta Med. 2005; 71 867-870
11 Lin A S, Nagakawa-Goto K, Chang F R, Yu D, Morris-Natschke S L, Wu C C, Chen S L, Wu Y C, Lee K H. First total synthesis of protoapigenone and its analogues as potent cytotoxic agents. J Med Chem. 2007; 50 3921-3927
12 Chang H L, Su J H, Yeh Y T, Lee Y C, Chen H M, Wu Y C, Yuan S S F. Protoapigenone, a novel flavonoid, inhibits ovarian cancer cell growth in vitro and in vivo. Cancer Lett. 2008; 267 85-95
13 Lin A S, Wu Y C, Lee K S, Chang F R. Composition for treating cancer cells and synthetic methods for the same. European Patent EP20080006865; 2008.
14 Chiu C C, Chang H W, Chuang D W, Chang F R, Chang Y C, Cheng W Y, Tsai M T, Chen W Y, Lee S S, Wang C K, Chen J Y, Wang H M, Chen C C, Liu Y C, Wu Y C. Fern plant-derived protoapigenone leads to DNA damage, apoptosis, and G2/M arrest in lung cancer cell line H1299. DNA Cell Biol. 2009; 28 501-506
15 Veit M, Beckert C, Höhne C, Bauer K, Geiger H. Interspecific and intraspecific variation of phenolics in the genus Equisetum subgenus Equisetum. Phytochemistry. 1995; 38 881-891
16 Wada H, Fujita H, Murakami T, Saiki Y, Chen C M. Chemical and chemotaxonomical studies of ferns. LXXIII. New flavonoids with modified B-ring from the genus pseudophegopteris (thelypteridaceae). Chem Pharm Bull. 1987; 35 4757-4762
17 Stomberg R, Lundquist K, Hauteville M, Geiger H. Crystal structure of protogenkwanine. J Crystallogr Spectrosc Res. 1991; 21 183-188
18 Adam K-P. Phenolic constituents of the fern Phegopteris connectilis. Phytochemistry. 1999; 52 929-934
19 Noro T, Fukushima S, Saiki Y, Ueno A, Akaori Y. Studies on the constituents of Leptorumohra miqueliana H. ITO. II. The structure of protofarrerol. Yakugaku Zasshi. 1969; 89 851-856
20 Hauteville M, Chopin J, Geiger H, Schüler L. Protogenkwanin 4′-glucoside, a new type of natural flavonoid with a non aromatic B-ring. Tetrahedron Lett. 1980; 21 1227-1230
21 Dewick P M. Medicinal natural products, a biosynthetic approach, 2nd edition. New York; John Wiley & Sons 2002: 149-151

Dr. Georges Massiot

Unité Mixte de Service 2597
Centre National de la Recherche Scientifique (CNRS) – Pierre Fabre, ISTMT

3 rue des Satellites

BP94244

31432 Toulouse Cedex 4

France

Phone: +33 5 34 32 14 02

Fax: +33 5 34 32 14 14

Email: georges.massiot@cnrs-dir.fr

Supplementary Material

www.thieme-connect.de/ejournals/toc/plantamedica