Nghiên cứu thành phần hóa học và hoạt tính chống ung thư của cây giác đế đài to (goniothalamus macrocalyx ban) và giác đế cuống dài (goniothalamus gracilipes ban) họ na (annonaceae) - 21

sinh học của vỏ cây Giác đế đài to (Goniothalamus macrocalyx Ban, Annonaceae). Tạp chí Hóa học, 2013, 51(2AB), 25-29.

7. Triệu Quý Hùng, Đoàn Thị Mai Hương, Phạm Văn Cường, Marc Litaudon, Nguyễn Văn Hùng, Châu Văn Minh, Một số hợp chất phenolic và acetogenin từ quả cây Giác đế cuống dài (Goniothalamus gracilipes Ban, Annonaceae). Tạp chí Hóa học, 2013, 51(4), 457-461.

8. Triệu Quý Hùng, Đoàn Thị Mai Hương, Phạm Văn Cường, Nguyễn Văn Hùng, Marc Litaudon, Pascal Retailleau, Isabelle Schmitz-Afonso, Châu Văn Minh. Áp dụng phương pháp phổ khối lượng trong việc xác định cấu trúc của acetogenin từ quả cây Giác đế đài to họ Na (Annonaceae). Tạp chí Hóa học, 2013, 51(6ABC), 31-35.

9. Trieu Quy Hung, Doan Thi Mai Huong, Pham Van Cuong, Marc Litaudon, Isabelle Schmitz-Afonso, Nguyen Van Hung and Chau Van Minh. Chemical constituents from the fruits of Goniothalamus macrocalyx (Annonaceae). Proceedings of the 2nd VAST-KAST workshop on biodiversity and bio-active compounds, Hanoi-Vietnam, October, 2013. 11-19.

10. Quy Hung Trieu, Huong Doan Thi Mai, Van Cuong Pham, Marc Litaudon, Van Hung Nguyen and Van Minh Chau, Two new cytotoxic linear acetogenins from the Fruits of Goniothalamus garcilipes (Annonaceae). Journal of Asian Natural Products Research (Submitted, 2013).

11. Quy Hung Trieu, Huong Doan Thi Mai, Van Cuong Pham, Marc Litaudon, Françoise Gueritte, Pascal Retailleau, Isabelle Schmitz-Afonso, Olinda Gimello, Van Hung Nguyen and Van Minh Chau. Styryllactones and acetogenins from the Fruits of Goniothalamus macrocalyx (Annonaceae). Phytochemistry Letters (Submitted, 2013).

TÀI LIỆU THAM KHẢO


[1]. R. Beaglehole, R. Bonita, R. Magnusson, Global cancer prevention: An important pathway to global health and development, Public Health, 2011, 125, 821-831.

[2]. Bộ Y tế, Qui hoạch phát triển mạng lưới phòng chống ung thư tại Việt Nam giai đoạn 2009-2020, 2009, Hà Nội.

Có thể bạn quan tâm!

Xem toàn bộ 184 trang tài liệu này.

[3]. R.J. Papac, Origins of Cancer Therapy, Yale Journal of Biology and Medicine, 2001, 74, 391-398.

[4]. Paul M Dewick, Medicinal Natural Products, John Wiley Sons, LTD, 2002, England.

Nghiên cứu thành phần hóa học và hoạt tính chống ung thư của cây giác đế đài to (goniothalamus macrocalyx ban) và giác đế cuống dài (goniothalamus gracilipes ban) họ na (annonaceae) - 21

[5]. M.J. Nirmala, A. Samundeeswari and P.D. Sankar, Natural plant resources in anti-cancer therapy – A review, Research in Plant Biology, 2011, 1 (3), 1-14.

[6]. Nguyễn Văn Hùng, Họ Na (Annonaceae)-Hóa học và hoạt tính sinh học của các loài Desmos rostrata, Goniothalamus tamirensis, Fissistigma villosissium

-Quyển 1. NXB Khoa học Tự nhiên và Công nghệ, 2011, Hà Nội.

[7]. C. Wiart, Goniothalamus species: A source of drugs for treatment of cancers and bacterial infections, eCAM 2007 doi: 10.1093/ecam/nem009, 2007, 1-13.

[8]. Nguyễn Tiến Bân, Thực vật chí Việt Nam-Tập 1. Họ Na, NXB Khoa học và kỹ thuật, 2000, Hà Nội.

[9]. Võ Văn Chi, Từ điển thực vật thông dụng, Tập 2, NXB Khoa học và kỹ thuật,

2004, Hà Nội.

[10]. M.A. Blázquez, A. Bermejo, M.C. Zafra-Polo and D. Cortes, Styryl-lactones from Goniothalamus species – A Review, Phytochemical Analysis, 1999, 10, 161-170.

[11]. F.Q. Alali, X.X. Liu, and J.L. McLaughlin, Annonaceous Acetogenins: Recent progress, Journal of Natural Products, 1999, 62, 504-540.

[12]. K. Jewers, J.B. Davis, J. Dougan, A.H. Manchanda, G. Blunden, A. Kyi and

S. Wetchapinan, Goniothalamin and its distribution in four Goniothalamus

specices, Phytochemistry, 1972, 11, 2025-2030.

[13]. D.T. Tran, T.M.H. Doan, V.C. Pham, V.H. Nguyen, M. Litaudon, F. Guéritte,

Q.V. Nguyen, T.A. Tran, V.M. Chau, Alkaloids and styryllactones from the leaves of Goniothalamus tamirensis, Phytochemistry Letters, 2013, 6, 79-83.

[14]. H.B. Mereyala and M. Joe, Cytotoxic Activity of Styryl-lactones and their Derivatives, Curr. Med. Chem.-Anti-Cancer Agents, 2001, 1, 293-300.

[15]. A. Fátima, L.K. Kohn, M.A. Antônio, J.E. Carvalho, and R.A. Pilli, (R)- Goniothalamin: Total syntheses and cytotoxic activity against cancer cell lines, Bioorganic Medicinal Chemistry, 2005, 13, 2927-2933.

[16]. S.H. Inayat-Hussain, B.O. Annuar, L.B. Din, A.M. Ali, D. Ross, Loss of mitochondrial transmembrane potential and caspases-9 activation during apoptosis induced by the novel styryl-lactone goniothalamin in HL-60 leukemia cells, Toxicology in vitro, 2003, 17, 433-439.

[17]. Z. Tian, S. Chen, Y. Zhang, M. Huang, L. Shi, F. Huang, C. Fong, M. Yang,

P. Xiao, The cytotoxicity of naturally occurring styryl lactones,

Phytomedicine, 2006, 13, 181-186.

[18]. M. Al-Qubaisi, R. Rozita, S.K. Yeap, A.R. Omar, A.M. Ali, N.B. Alitheen, Selective Cytotoxicity of Goniothalamin against Hepatoblastoma HepG2 Cells, Molecules, 2011, 16, 2944-2959.

[19]. C.V.B. Martins, M.A. Resende, T.F.F. Magalhães, B.H.S. Lima, G.A. Watanabe, A.L.T.G. Ruiz, J.E. Carvalho, R.A. Pilli, Â. Fátima, Antifungal Activity of Goniothalamin Enatiomers, Letters in Drug Design Discovery, 2008, 5, 74-78.

[20]. R.P.T. Kim, V. Bihud, K.B. Mohamad, K.H. Leong, J.B. Mohamad, F.B. Ahmad, H. Hazni, N. Kasim, S.N.A. Halim, K. Awang, Cytotoxic and Antioxidant Compounds from the Stem Bark of Goniothalamus tapisoides Mat Salleh, Molecules, 2013, 18, 128-139.

[21]. T.W. Sam, S.Y. Chew, S. Matsjeh, E.K. Gan, D. Razak, A.L. Mohamed, Goniothalamin oxide: an embryotoxic compound from Goniothalamus macrophyllus (Annonaceae), Tetrahedron Letters, 1987, 28 (22), 2541-2544.

[22]. A. Alkofahi, W.W. Ma, A.T. McKenzie, S.R. Byrn, J.C. McLaughlin, Goniotriol from Goniothalamus giganteus, Journal of Natural Products, 1989, 52 (6), 1371-1373.

[23]. T.M. Shing, Z.-H. Zhou, Goniotriol and 8-acetylgoniotriol: syntheses and absolute configuration, Tetrahedron Letters, 1992, 33 (23), 3333-3334.

[24]. A. Bermejo, M.A. Bláquez, K.S. Rao and Cortes, Styryl-pyrone from

Goniothalamus arvensis, Phytochemistry, 1998, 47, 1375-1380.

[25]. Y.H. Lan, F.R. Chang, J.H. Yu, Y.L. Yang, Y.L. Chang, S.J. Lee, Y.C. Wu,

Cytotoxic Styrylpyrones from Goniothalamus amuyon, Journal of Natural Products, 2003, 66, 487-490.

[26]. U. Prawart, S. Chaimanee, A. Butsuri, A.-W. Salae, P. Tuntiwachwuttikul, Bioactive styryl-lactones, two new naphtoquinones and one new styryl- lactone, and other constituents from Goniothalamus scortechinii, Phytochemistry Letters, 2012, 5, 529-534.

[27]. R. Lekphrom, S. Kanokmedhakul, K. Kanokmedhakul, Bioactive styryllactones and alkaloid from flowers of Goniothalamus laoticus, Journal of Ethnopharmacology, 2009, 125, 47-50.

[28]. R. Chen, D. Yu, F. Wu, W. Song, The chemical constituents of

Goniothalamus howii Merr, Yao Xue Bao, 1998, 33 (6), 453-456.

[29]. J. He, Y. Ye, C. Xu, Antitumor activity of howiinol (GHM-10) on L1210 cells in vitro, Yao Xue Bao, 1998, 33 (8), 566-570.

[30]. C.-X. Xu, J.-H. He, Anticancer effect of howiinol A and its mechanism of action, Journal of Asian Natural Products Research, 1999, 2 (1), 1-19.

[31]. Y. Ueno, K. Tadano, S. Ogawa, JL. McLaughlin, A. Alkofahi, Total syntheses of (+)-altholactone and three stereocongeners and their cytotoxicity against several tumor cell lines, Bull. Chem. Soc. Jpn., 1989, 62, 2328-2337.

[32]. F.A. Momani, A.S. Alkofahi and N.M. Mhaidat, Altholactone displays promising antimicrobial activity, Molecules, 2011, 16, 4560-4566.

[33]. E. Peris, E. Estornell, N. Cabedo, D. Cortes, A. Bermejo, 3- Acetylaltholactone and related styryl-lactones, mitochondrial respiratory chain inhibitors, Phytochemistry, 2000, 54, 311-315.

[34]. S. Tantithanaporn, C. Wattanapiromsakul, A. Itharat, N. Keawpradub, Cytotoxic activity of acetogenins and styryl lactones isolated from Gonothalamus undulatus Ridl. root extracts against a lung cancer cell lines (COR-L23), Phytomedicine, 2011, 18, 486-490.

[35]. Y.H. Lan, F.R. Chang, CC. Liaw, C.C. Wu, M.Y. Chiang, Y.C. Wu,

Digoniodiol, Deoxygoniopypyrone A, and Goniofupyrone A: Three new styryllactones from Goniothalamus amuyon, Planta Med., 2005, 71, 153-159.

[36]. X.P. Fang, J.E. Anderson, C.J. Chang, J.L. McLaughlin, P.E. Fanwick, Two new styryl lactones, 9-Deoxygoniopypyrone and 7-epi-goniofufurone, from Goniothalamus giganteus, Journal of Natural Products, 1991, 54 (4), 1034-

1043.

[37]. X.P. Fang, J.E. Anderson, C.-J. Chang, P.E. Fanwick, J.L. McLaughlin, New bioactive styryl-lactone: Goniofufurone, goniopypyrone, and 8- Acetylgoniotriol form Goniothalamus giganteus (Annonaceae). X-ray Molecular Structure of Goniofufurone and of Goniopypyrone, J. Chem. Soc. Perkin Trans, 1990, 1655-1661.

[38]. X.P. Fang, J.E. Anderson, C.-J. Chang, P.E. Fanwick, J.L. McLaughlin, Two new Styryl lactones, 9-deoxygoniopypyrone and 7-epi-goniofufurone, from Goniothalamus giganteus, Journal of Natural Products, 1991, 54 (4), 1034-

1043.

[39]. M.M. Jiang, Y.F. Feng, X. Zhang, L.L. Zhao, X.S. Yao, Furanofurone-type styryllactone from Goniothalamus cheliensis, Biochemical Systematics and Ecology, 2011, 39, 846-848.

[40]. H.T. Bui, T.H. Vu, T.H. Tran, X.N. Nguyen, E.-M. Choi, J.A. Kim, Q.P.

Long, M.C. Nguyen, Y.H. Kim, New pyrano-pyrone from Goniothalamus

tamirensis Enhences the Proliferation and Differentiation of Osteoblastic MCT3-E1 Cells, Chem. Pharm. Bull., 2010, 58 (4), 521-525.

[41]. S. Wang, S.J. Dai, R.Y. Chen, S.S. Yu, D.Q. Yu, Two new styryllactone from

Goniothalamus cheliensis, Chinese Chemical Letters, 2003, 4 (5), 487-488. [42]. A. Hisham, M. Toubi, W. Shuaily, M.D.A. Bai, Y. Fujimoto,

Cardiobutanolide, a styryllactone from Goniothalamus cardiopetalus, Phytochemistry, 2003, 62, 597-600.

[43]. S. Wang, Y.J. Zhang, R.Y. Chen, D.Q. Yu, Goniolactones A-F, Six new styrylpyrone Derivatives from the roots of Goniothalamus cheliensis, Journal of Natural Products, 2002, 65, 835-841.

[44]. J.X. Zhu, D.L. Yu, W.L. Yu, W.H. Huang, L. Sun, Y. Lv, Q.T. Zheng, K.H.

Lee, J.G. Yu, Digoniolactone and gonioheptenolactone, two novel cytotoxic styryllactones from the leaves of G. chenliensis, Chinese Chemical Letters, 2012, 23, 583-586.

[45]. T.K.M. Shing, H.-C. Tsui, Z.-H. Zhou, Enantiospecific Syntheses of (+)- Goniofufurone, (+)-7-epi-Goniofufurone, (+)-Goniobutenolide A, (-)- Goniobutenolide B, (+)-Goniopypyrone, (+)-Altholactone, (+)-Goniotriol, and (+)-7-acetylgoniotriol, J. Org. Chem., 1995, 60, 3121-3130.

[46]. A. Bermejo, B. Figadère, M.C. Zafra-Polo, I. Barrachina, E. Estornell and D. Cortes, Acetogenins from Annonaceae: recent progress in isolation, synthesis and mechanism of action, Nat. Prod. Rep., 2005, 22, 269-303.

[47]. A. Alkofahi, J.K. Rupprecht, D.L. Smith, Ch.-J. Chang, J.L. McLaughlin, Goniothalamicin and annonacin: Bioactive acetogenins from Goniothalamus giganteus (Annonaceae), Experientia, 1988, 44, 83-85.

[48]. L. Xu, C.-J. Chang, J.G. Yu, and J.M. Cassady, Chemistry and selective cytotoxicity of Annonacin-10-one, Isoannonacin, and Isoannonacin-10-one. Novel polyketides from Annona densicoma (Annonaceae), J. Org. Chem., 1989, 54, 5418-5421.

[49]. F. Alali. L. Zeng, Y. Zhang, Q. Ye, D.C. Hopp, J.T. Schwedler and J.L McLaughlin, 4-Deoxyannomontacin and (2,4-cis and trans)-

Annomontacinone, New Bioactive Mono-tetrahydrofuran Annonaceous Acetogenins from Goniothalamus giganteus, Bioorganic Medicinal Chemistry, 1997, 5 (3), 549-555.

[50]. F. Alali. L. Roger, Y. Zhang, J.L McLaughlin, Unusual Bioactive Annonaceous Acetogenins from Goniothalamus giganteus, Tetrahedron, 1998, 54, 5833-5844.

[51]. Nguyễn Mạnh Cường, Trần Văn Sung, Kun Cho, Byung Zun Ahn, Các axetogenin mới có hoạt tính chống ung thư từ cây Bổ béo đen (Goniothalamus vietnamensis Ban), Tạp chí Hóa học, 2003, 41, 55-61.

[52]. Nguyễn Mạnh Cường, Nguyễn Quyết Chiến, Phân lập và hoạt tính chống ung thư của hai cặp đồng phân epime acetogenin mới từ cây Bổ béo đen. II, Tạp chí Khoa học và công nghệ, 2006, 44, 53-59.

[53]. F.Q. Alali, Y. Zhang, L. Rogers, and J.L. McLaughlin, (2,4-cis and 2,4- trans)-Gigantecinone and 4-Deoxygigantecin, Bioactive Nonadjacent bis- Tetrahydrofuran Annonaceous Acetogenins, from Goniothalamus gigianteu, Journal of Natural Products, 1997, 60, 929-933.

[54]. Z.-M. Gu, X.-P. Fang, L. Zeng, J.L. McLaughlin, Goniocin from Goniothalamus gigianteus. The first tri-THF annonaceous acetogenin, Tetrahedron Letters, 1994, 35, 5367-5368.

[55]. Y. Chen, Z. Jiang, R.R. Chen, D.Q. Yu, Two linear acetogenins from

Goniothalamus gardneri, Phytochemistry, 1998, 49, 1317-1321.

[56]. V. Seidel, F. Bailleul, P.G. Waterman, Goniothalamusin, a linaer acetogenin from Goniothalamus gardneri, Phytochemistry, 1999, 52, 1101-1103.

[57]. V. Seidel, F. Bailleul, P.G. Waterman, (Rel)-1β,2α-di-(2,4-dihydroxy-6- methoxybenzoyl)-3β,4α-di-(4-methoxyphenyl)-cyclobutane and other flavonoids from the aerial parts of Goniothalamus gardneri and Goniothalamus thwaitesii, Phytochemistry, 2000, 55, 439-446.

[58]. K. Likhitwitayawuid, Ch. Klongsiriwet, V. Jongbunprasert, B. Sritularak, S. Wongseripipatana, Flavones with Free Radical Scaveging Activity from

Goniothalamus tenuifolius, Archivies of Pharmacal Research, 2006, 29 (3),

199-202.

[59]. A. Abdullah, Z. Zakaria, F.B. Ahmad, K. Mat-Salleh, L.B. Din, Chemical constituents from the Fruit Peel of Goniothalamus scortechinii, Sains Malaysiana, 2009, 38 (3), 365-369.

[60]. F.B. Ahmad, N.K. Nisa, M. Sallehuddin, Z. Assim, Chemical constituents and antiviral study of Goniothalamus velutinus, Journal of Fundamental Sciences, 2010, 6 (1), 72-75.

[61]. S.G. Cao, X.H. Wu, K.Y. Sim, B.K.H. Tan, J.T. Pereica and S.H. Goh, Styryl-lactone Derivatives and Alkaloids from Goniothalamus borneensis (Annonaceae), Tetrahedron, 1998, 54, 2143-2148.

[62]. N. Soonthornchareonnon, K. Suwanborirux, R. Bavovada, C. Patarapanich, and J.M. Cassady, New Cytotoxic 1-Azaanthraquinones and 3- Aminonaphthoquinone from the Stem Bark of Goniothalamus marcanii, Journal of Natural Products, 1999, 62, 1390-1394.

[63]. C. Levrier, M. Balastrier, K.D. Beattie, A.R. Carroll, F. Martin, V. Choomuenwai, R.A. Davis, Pyridocoumarin, aristolactam and aporphine alkaloids from the Astralian rainforest plant Goniothalamus australis, Phytochemistry, 2013, 86, 121-126.

[64]. A. Mann, K. Ibrahim, A.O. Oyewale, J.O. Amupitan, M.O. Fatope, J.I. Okogun, Antimycobacterial Friedelane-terpenoid from the Root Bark of Terminalia Avicennioides, American Journal of Chemistry, 2011, 1 (2), 52-

55.

[65]. P. Yogeeswari, and D. Sriram, Betulinic Acid and Its Derivatives: A Review on their Biological Properties, Current Medicinal Chemistry, 2005, 12, 657- 666.

[66]. O. Laprévote and B.C. Das, Structural elucidation of acetogenins from Annonaceae by Fast Atom Bombardment Mass Spectrometry. Tetrahedron, 1994, 50, 8479-8490.

..... Xem trang tiếp theo?
⇦ Trang trước - Trang tiếp theo ⇨

Ngày đăng: 10/05/2022