Metabolites and bioactivities of Rhizophoraceae mangroves

doi:10.1007/s13659-013-0012-0

摘要/Abstract

摘要： This review examines the chemical compositions and bioactivities of mangrove plants belonging to the Rhizophoraceae family. The Rhizophoraceae family of true mangrove plants is the most common and is also widely distributed species. It consists of 24 species across four genera. Of the 24 species, 12 species remain unexamined for their phytochemical constituents. There have been 268 metabolites reported from 16 species. The key phytochemical constituents identified across the family are the diterpenoids and triterpenoids. The major diterpenoids include pimaranes, beyeranes, kaurenes, dolabranes and labdanes whereas the significant triterpenoids are lupanes, dammaranes and oleananes. Disulphides, dolabranes and labdanes are considered to be the chemotaxonomic markers of the genera Bruguiera, Ceriops and Rhizophora respectively.

关键词: Rhizophoraceae, Bruguiera, Rhizophora, terpenoids, Ceriops

Abstract: This review examines the chemical compositions and bioactivities of mangrove plants belonging to the Rhizophoraceae family. The Rhizophoraceae family of true mangrove plants is the most common and is also widely distributed species. It consists of 24 species across four genera. Of the 24 species, 12 species remain unexamined for their phytochemical constituents. There have been 268 metabolites reported from 16 species. The key phytochemical constituents identified across the family are the diterpenoids and triterpenoids. The major diterpenoids include pimaranes, beyeranes, kaurenes, dolabranes and labdanes whereas the significant triterpenoids are lupanes, dammaranes and oleananes. Disulphides, dolabranes and labdanes are considered to be the chemotaxonomic markers of the genera Bruguiera, Ceriops and Rhizophora respectively.

Key words: Rhizophoraceae, Bruguiera, Rhizophora, terpenoids, Ceriops

Murukesh NEBULA, H. S. HARISANKAR, N. CHANDRAMOHANAKUMAR. Metabolites and bioactivities of Rhizophoraceae mangroves[J]. 应用天然产物, 2013, 3(5): 207-232.

Murukesh NEBULA, H. S. HARISANKAR, N. CHANDRAMOHANAKUMAR. Metabolites and bioactivities of Rhizophoraceae mangroves[J]. Natural Products and Bioprospecting, 2013, 3(5): 207-232.

参考文献

[1] Bandaranayake, W. M. Wetl. Ecol. Manag. 2002, 10, 421-452.
[2] Wu, J.; Xiao, Q.; Xu, J.; Li, M. Y.; Pan, J. Y.; Yang, M. H. Nat. prod. Rep. 2008, 25, 955-981.
[3] Kathiresan, K. Environ. Ecol. 1995, 13, 240-241.
[4] Sheue, C.; Liu, H.; Yong, J. W. H. Taxon 2003, 52, 287-294.
[5] Sheue, C.; Rashid, S. M. A.; Yong, J. W. H.; Yang, Y. Taiwania 2010, 55, 72-77.
[6] Loder, J. W.; Russell, G. B. Aust. J. Chem. 1969, 22, 1271-1275.
[7] Richter, A.; Thonke, B.; Popp, M. Phytochemistry 1990, 29, 1785-1786.
[8] Chumkaew, P.; Kato, S.; Chantrapromma, K. Chem. Pharm. Bull. 2005, 53, 95-96.
[9] Loder, J. W.; Russell, G. B.; Tetrahedron Lett. 1966, 51, 6527-6529.
[10] Li, L.; Huang, C. G.; Wang, C. Y.; Guo, Y. W. Nat. Prod. Res. 2010, 24, 1044-1049.
[11] Bao, S.; Deng, Z.; Fu, H.; Proksch, P.; Lin, W. Helv. Chim. Acta 2005, 88, 2757-2763.
[12] SY, B.; Lin, W. Zhongguo Zhong Yao Za Zhi 2006, 31, 1168-1171.
[13] Bao, S.; Ding, Y.; Deng, Z., Proksch, P.; Lin, W. Chem. Pharm. Bull. 2007, 55, 1175-1180.
[14] Katu, A.; Takahashi, J. Phytochemistry 1975, 5, 220-221.
[15] Laphookhieo, S.; Karalai, C.; Ponglimanont, C.; Chantrapromma, K. J. Nat. Prod. 2004, 67, 886-888.
[16] Karalai, C.; Laphookhieo, S. Aust. J. Chem. 2005, 58, 556-559.
[17] Ghosh, A.; Misra, S.; Dutta, A. K.; Choudary, A. Phytochemistry 1985, 24, 1725-1727.
[18] Homhual, S.; Bunyapraphatsara, N.; Kondratyuk, T.; Herunsalee, A.; Chaukul, W.; Pezzuto, J. M.; Fong, H. H. S.; Zhang, H. J. J. Nat. Prod. 2006, 69, 421-424
[19] Ganguly, S. N.; Sarkar, A. Indian J. Chem. B. 1978, 16, 742-744.
[20] Hogg, R. W.; Gillan, F. T. Phytochemistry 1984, 23, 93-97.
[21] Achamadi, S.; Syahbirin, G.; Choong, E. T.; Hemingway, W. R. Phytochemistry 1994, 35, 217-219.
[22] Han, L.; Huang, X.; Sattler, I.; Dahse, H. M.; Fu, H.; Lin, W.; Grabley, S. J. Nat. Prod. 2004, 67, 1620-1623.
[23] Subrahmanyam, C.; Rao, B. V.; Ward, R. S.; Hursthouse, M. B.; Hibbs, D. E. Phytochemistry 1999, 83, 83-90.
[24] Salae, A. W.; Chantrapromma, S.; Fun, H. K.; Ponglimanont, C. Acta Crystallogr. E. 2007, 63, 1899-1901.
[25] Han, L.; Huang, X.; Sattler, I.; Dahse, H. M.; Fu, H.; Grabley, S.; Lin, W. Pharmazie 2005, 60, 705-707
[26] Homhual, S.; Zhang, H. J.; Bunyapraphatsara, N.; Kondratyuk, T.; Santarsiero, B. D.; Mesecar, A. D.; Herunsalee, A.; Chaukul, W.; Pezzuto, J. M.; Fong, H. H. Planta Med. 2006, 72, 255-260.
[27] Huang, X. Y.; Wang, Q.; Liu, H. L.; Zhang, Y.; Xin, G. R.; Shen, X.; Dong, M. L.; Guo, Y. W. Phytochemistry 2009, 70, 2096-100.
[28] Han, L.; Huang, X.; Sattler, I.; Moellmann, U.; Fu, H.; Lin, W.; Grabley, S.; Planta Med. 2005, 71, 160-164.
[29] Han, L.; Huang, X.; Sattler, I.; Moellmann, U.; Fu, H.; Lin, W.; Grabley, S. J. Asian Nat. Prod. Res. 2007, 9, 327-331.
[30] Anjaneyulu, A. S. R.; Rao, V. L. Phytochemistry 2002, 60, 777-782.
[31] Anjaneyulu, A. S. R.; Rao, V. L. Phytochemistry 2003, 62, 1207-1211.
[32] Anjaneyulu, A. S. R.; Rao, V. L.; Lobkovsky, E.; Clardy, J. J. Nat. Prod. 2002, 65, 592-594.
[33] Ponglimanont, C.; Thongdeeying, P. Aust. J. Chem. 2005, 58, 615-618.
[34] Zhang, Y.; Deng, Z.; Gao, T., Proksch, P.; Lin, W. Phytochemistry 2005, 66, 1465-1471.
[35] Ouyang, X. W.; Wang, X. C.; Yue, Q. X.; Hu, L. H. Nat. Prod. Commun. 2010, 5, 9-12.
[36] Chen, J. D.; Yi, R. Z.; Lin, Y. M.; Feng, D. Q.; Zhou, H. C.;Wang, Z. C. Int. J. Mol. Sci. 2011, 12, 6517-6528.
[37] Fun, H. K.; Pakhathirathien, C.; Chantrapromma, S.; Karalai, C.; Chantrapromma, K. Acta Crystallogr. E. 2006, 62, 5539-5541.
[38] Hu, W. M.; Li, M. Y.; Li, J.; Xiao, Q.; Feng, G.; Wu, J. J. Nat. Prod. 2010, 73, 1701-1705.
[39] Chacha, M. Int. J. Biol. Chem. Sci. 2011, 5, 402-409.
[40] Chantrapromma, S.; Fun, H. K.; Pakhathirathien, C.; Karalai, C.; Chantrapromma, K. Acta Crystallogr. E. 2007, 63, 459-461.
[41] Zhang, Y.; Lu, Y.; Mao, L.; Proksch, P.; Lin, W. Org. Lett. 2005, 7, 3037-3040.
[42] Chen, J. D.; Qiu, Y.; Yang, Z. W.; Lin, P.; Lin, Y. M. Helv. Chim. Acta 2008, 91, 2292-2298.
[43] Pakhathirathien, C.; Karalai, C.; Ponglimanont, C.; Subhadhirasakul, S.; Chantrapromma, K. J. Nat. Prod. 2005, 68, 1787-1789.
[44] Wang, X. C.; Ouyang, X. W.; Hu, L. H. J. Asian Nat. Prod. Res. 2010, 12, 576-581.
[45] Chen, J. D.; Feng, D. Q.; Yang, Z. W.; Wang, Z. C.; Qiu, Y.; Lin, Y. M. Molecules 2008, 13, 212-219.
[46] Hsu, F. L.; Nonaka, G. I.; Nishioka, I. Chem. Pharm. Bull. 1985, 33, 3142-3152.
[47] Kokpol, U.; Chavasiri, W. J. Nat. Prod. 1990, 53, 953-955.
[48] Li, D. L.; Li, X. M.; Wang, B. G. Nat. Prod. Res. 2008, 22, 808-813.
[49] Laphookhieo, S.; Karalai, C.; Ponglimanont, C. Chem. Pharm. Bull. 2004, 52, 883-885.
[50] Yang, X. H.; Li, H. B.; Chen, H.; Li, P.; Ye, B. P. Yao Xue Xue Bao 2008, 43, 974-978.
[51] Williams, L. Die Naturwissenschaften 1999, 86, 450-452.
[52] Gao, M. Z.; Yuan, X. Y.; Cheng, M. C.; Xiao, H. B.; Bao, S. X. J. Asian Nat. Prod. Res. 2011, 13, 776-779.
[53] Rohini, R. M.; Das, A. K. Nat. Prod. Res. 2010, 24, 197-202.
[54] Rao, B. V.; Rao, C. V.; Subrahmanyam, C.; Jairaj, M. A. J. Indian Chem. Soc. 2005, 82, 155-157.
[55] Kokpol, U.; Chavasiri, W.; Chittawong, V.; Bruce, M.; Cunningham, G. N.; Miles, D. H. Phytochemistry 1993, 33, 1129-1131.
[56] Saxena, E.; Garg, H. S. Nat. Product Lett. 1994, 4, 149-154.
[57] Anjaneyulu, A. S. R.; Rao, V. L. Nat. Product Lett. 2001, 15, 13-19.
[58] Anjaneyulu, A. S. R.; Anjaneyulu, V.; Rao, V. L. J. Asian Nat. Prod. Res. 2002, 4, 53-61.
[59] Li, D. L.; Li, X. M.; Peng, Z. Y.; Wang, B. G. Molecules 2007, 12, 1163-1169.
[60] Takara, K.; Kuniyoshi, A.; Wada, K.; Kinjyo, K.; Iwasaki, H. Biosci. Biotech. Biochem. 2008, 72, 2191-2194.
[61] Premanathan, M.; Kathiresan, K.; Nakashima, H. South Pacific Study 1999, 19, 49-57.
[62] Chandrasekaran, M.; Kannathasan, K.; Venkatesalu, V.; Prabhakar, K. World J. Microb. Biotech. 2008, 25, 155-160.
[63] Hossain, H.; Moniruzzaman, Sk.; Nimmi, I.; Kawsar, H.; Hossain, A.; Islam, A.; Jahan, I. A. Oriental Pharm. Exp. Med. 2011, 11, 215-220.
[64] Nabeel, M. A.; Kathiresan, K.; Manivannan, S. J. Diabetes 2010, 2, 97-103.
[65] Arivuselvan, N.; Silambarasan, D.; Govindan, T.; Kathiresan, K. Adv. Biol. Res. 2011, 5, 251-254.
[66] Zhang, L. L.; Lin, Y. M.; Zhou, H. C.; Wei, S. D.; Chen, J. H.; Molecules 2010, 15, 420-31.
[67] Wei, S. D.; Zhou, H. C.; Lin, Y. M. Int. J. Mol. Sci. 2010, 11, 4080-4093.
[68] Abeysinghe, P. D. Indian J. Pharm. Sci. 2010, 72, 167-172.
[69] Hong, L. S.; Ibrahim, D.; Kassim, J.; Sulaiman, S. J. Appl. Pharm. Sci. 2011, 1, 75-79.
[70] Sur, T. K.; Seal, T.; Pandit, S.; Bhattacharya, D. Nat. Prod. Sci. 2004, 10, 11-15.
[71] Alarcon-Aguilara, F. J.; Roman-Ramos, R.; Perez-Gutierrez, S.; Aguilar-Contreras, A.; Contreras-Weber, C. C.; Flores-Saenz, J. L. J. Ethnopharmacol. 1998, 61, 101-110.
[72] Nabeel, A. M.; Kathiresan, K.; Chinthamani, M.; Manivannan, S. Nat. Prod. Res. 2012, 26, 1161-1166.
[73] Agoramoorthy, G.; Chen, F. A.; Venkatesalu, V.; Kuo, D. H.; Shea, P. C. Asian J. Chem. 2008, 20, 1311-1322.