Natural Products and Bioprospecting    2023, Vol. 13 Issue (3) : 21-21     DOI: 10.1007/s13659-023-00386-z
2023-6-25 |
New halimane and clerodane diterpenoids from Croton cnidophyllus
Xun Wei, Jia-Luo Huang, Hua-Hua Gao, Fang-Yu Yuan, Gui-Hua Tang, Sheng Yin
School of Pharmaceutical Sciences, Sun Yat-Sen University, Guangzhou, 510006, People’s Republic of China
Download: PDF(1782 KB)   HTML ()  
Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks    
Abstract  Three new halimane furanoditerpenoids (1-3) and three new clerodane furanoditerpenoids (4-6), along with seven known terpenoids including four pimarane diterpenoids (7-10) and three norisoprenoids (11-13) were isolated from the 95% EtOH extracts of the plants of Croton cnidophyllus. The 2D structures including absolute configuration of new furanoditerpenoids (1-6) were elucidated by analysis of their HRMS and NMR data as well as comparison of experimental and calculated ECD curves. Bioassay revealed that two compounds (8 and9) possessed certain inhibitory effects against NO production stimulated by LPS, with IC50 values of 19.00±1.76 and 21.61±1.11 μM, respectively.
Keywords Euphorbiaceae      Croton cnidophyllus      Furanoditerpenoids      Anti-inflammatory activity     
Fund:This work was supported by the National Natural Science Foundation of China (No. 82273804), the Science and Technology Program of Guangzhou, China (No. 202201011613), the Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai) (No. SML2021SP301), the Open Program of Shenzhen Bay Laboratory (No. SZBL2021080601007), the Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program (No. 2017BT01Y093), and the Guangdong Basic and Applied Basic Research Foundation, China (No. 2021B1515140062).
Corresponding Authors: Gui-Hua Tang,E-mail:tanggh5@mail.sysu.edu.cn;Sheng Yin,E-mail:yinsh2@mail.sysu.edu.cn     E-mail: tanggh5@mail.sysu.edu.cn;yinsh2@mail.sysu.edu.cn
Issue Date: 18 July 2023
Service
E-mail this article
E-mail Alert
RSS
Articles by authors
Xun Wei
Jia-Luo Huang
Hua-Hua Gao
Fang-Yu Yuan
Gui-Hua Tang
Sheng Yin
Trendmd:   
Cite this article:   
Xun Wei,Jia-Luo Huang,Hua-Hua Gao, et al. New halimane and clerodane diterpenoids from Croton cnidophyllus[J]. Natural Products and Bioprospecting, 2023, 13(3): 21-21.
URL:  
http://npb.kib.ac.cn/EN/10.1007/s13659-023-00386-z     OR     http://npb.kib.ac.cn/EN/Y2023/V13/I3/21
1 Wang R, Fan RZ, Ni FQ, Sang J, Xie XL, Luo SY, Tang GH, Yin S. 19-nor-, 20-nor-, and tetranor-halimane-type furanoditerpenoids from Croton crassifolius. J Nat Prod. 2020;83:255-67.
2 Hu R, Huang JL, Yuan FY, Wei X, Zou MF, Tang GH, Li W, Yin S. Crotonianoids A-C, three unusual tigliane diterpenoids from the seeds of Croton tiglium and their anti-prostate cancer activity. J Org Chem. 2022;87:9301-6.
3 Cui JJ, Ji KL, Liu HC, Zhou B, Liu QF, Xu CH, Ding J, Zhao JX, Yue JM. Cytotoxic tigliane diterpenoids from Croton damayeshu. J Nat Prod. 2019;82:1550-7.
4 Krebs HC, Ramiarantsoa H. Clerodane diterpenes of Croton hovarum. Phytochemistry. 1997;45:379-81.
5 Qi JJ, Zhou JS, Zhang Y, Fan YY, Zhou B, Liu HC, Zhao JX, Yue JM. Sublyratins A-O, labdane-type diterpenoids from Croton sublyratus. J Nat Prod. 2021;84:2971-80.
6 Santos HS, Barros FWA, Albuquerque MRJR, Bandeira PN, Pessoa C, Braz-Filho R, Monte FJQ, Leal-Cardoso JH, Lemos TLG. Cytotoxic diterpenoids from Croton argyrophylloides. J Nat Prod. 2009;72:1884-7.
7 Moura VLA, Monte FJO, Filho RB. A new casbane-type diterpenoid from Croton nepetaefolius. J Nat Prod. 1990;53:1566-71.
8 Baccelli C, Navarro I, Block S, Abad A, Morel N, Quetin-Leclercq J. Vasorelaxant activity of diterpenes from Croton zambesicus and synthetic trachylobanes and their structure-activity relationships. J Nat Prod. 2007;70:910-7.
9 Roengsumran S, Achayindee S, Petsom A, Pudhom K, Singtothong P, Surachetapan C, Vilaivan T. Two new cembranoids from Croton oblongifolius. J Nat Prod. 1998;61:652-4.
10 Kitazawa E, Ogiso A, Takahashi S, Aiya S, Kurabayashi M, Kuwano H, Hata T, Tamura C. Plaunol A and B, new anti-ulcer diterpenelactones from Croton sublyratus. Tetrahedron Lett. 1979;20:1117-20.
11 Rakotonandrasana OL, Raharinjato FH, Rajaonarivelo M, Dumontet V, Martin MT, Bignon J, Rasoanaivo P. Cytotoxic 3,4-seco-Atisane diterpenoids from Croton barorum and Croton goudotii. J Nat Prod. 2010;73:1730-3.
12 Wang GC, Li JG, Li GQ, Xu JJ, Wu X, Ye WC, Li YL. Clerodane diterpenoids from Croton crassifolius. J Nat Prod. 2012;75:2188-92.
13 Terefe EM, Okalebo FA, Derese S, Muriuki J, Rotich W, Mas-Claret E, Sadgrove N, Padilla-González GF, Prescott TAK, Siddique H, Langat MK. Constituents of Croton megalocarpus with potential anti-HIV activity. J Nat Prod. 2022;85:1861-6.
14 Adelekan AM, Prozesky EA, Hussein AA, Ureña LD, van Rooyen PH, Liles DC, Meyer JJM, Rodríguez B. Bioactive diterpenes and other constituents of Croton steenkampianus. J Nat Prod. 2008;71:1919-22.
15 Thongtan J, Kittakoop P, Ruangrungsi N, Saenboonrueng J, Thebtaranonth Y. New antimycobacterial and antimalarial 8,9-secokaurane diterpenes from Croton kongensis. J Nat Prod. 2003;66:868-70.
16 Liu CP, Xu JB, Zhao JX, Xu CH, Dong L, Ding J, Yue JM. Diterpenoids from Croton laui and their cytotoxic and antimicrobial activities. J Nat Prod. 2014;77:1013-20.
17 Jiang ZY, Liu CJ, Niu Q, Yan XY, Xiao D, Zhang HL, Huang CQ, Shi SL, Zuo AX, He HP. In vitro hypoglycemic diterpenoids from the roots of Croton yunnanensis. J Nat Prod. 2023;86:199-208.
18 Li B, Hans-Joachim E. Croton. Flora China. 2008;11:258-64.
19 Yuan FY, Tang ZY, Huang D, Li W, Wu SQ, Huang JL, Yan XL, Fan RZ, Tang GH, Yin S. Tigliane and rhamnofolane glycosides from Euphorbia wallichii prevent oxidative stress-induced neuronal death in PC-12 cells. Bioorg Chem. 2022;128: 106103.
20 Wu SQ, Fan RZ, Yuan FY, Li W, Huang D, Li S, Tang GH, Huang ZS, Yin S. Euphylonoids A and B, two highly modified jatrophane diterpenoids with potent lipid-lowering activity from Euphorbia hylonoma. Org Lett. 2022;24:8854-8.
21 Zou MF, Pan YH, Hu R, Yuan FY, Huang D, Tang GH, Li W, Yin S. Highly modified nor-clerodane diterpenoids from Croton yanhuii. Fitoterapia. 2021;153: 104979.
22 Krebs HC, Ramiarantsoa H. Clerodane diterpenes and other constituents of Croton hovarum. Phytochemistry. 1996;41:561-3.
23 Maslovskaya LA, Savchenko AI, Gordon VA, Reddell PW, Pierce CJ, Parsons PG, Williams CM. EBC-316, 325-327, and 345: New pimarane diterpenes from Croton insularis found in the Australian rainforest. Aust J Chem. 2015;68:652-9.
24 Itokawa H, Ichihara Y, Takeya K, Morita H, Motidome M. Diterpenes from Croton Salutaris. Phytochemistry. 1991;30(12):4071-3.
25 Ravindranath N, Ravinder Reddy M, Ramesh C, Ramu R, Prabhakar A, Jagadeesh B, Das B. New lathyrane and podocarpane diterpenoids from Jatropha curcas. Chem Pharm Bull. 2004;52:608-11.
26 Chao CH, Cheng JC, Shen DY, Wu TS. Anti-hepatitis C virus dinorditerpenes from the roots of Flueggea virosa. J Nat Prod. 2014;77:22-8.
27 Kim KH, Lee KH, Choi SU, Kim YH, Lee KR. Terpene and phenolic constituents of Lactuca indica L. Arch Pharm Res. 2008;31:983-8.
28 Kisiel W, Michalska K, Szneler E. Norisoprenoids from aerial parts of Cichorium pumilum. Biochem Syst Ecol. 2004;32:343-6.
[1] Sitian Zhang, Shuyuan Mo, Fengli Li, Yaxin Zhang, Jianping Wang, Zhengxi Hu, Yonghui Zhang. Drimane sesquiterpenoids from a wetland soil-derived fungus Aspergillus calidoustus TJ403-EL05[J]. Natural Products and Bioprospecting, 2022, 12(4): 27-27.
[2] Ning-Ning Wang, Chun-Yu Liu, Tian Wang, Yue-Lan Li, Ke Xu, Hong-Xiang Lou. Two New Quinazoline Derivatives from the Moss Endophytic Fungus Aspergillus sp. and Their Anti-inflammatory Activity[J]. Natural Products and Bioprospecting, 2021, 11(1): 105-110.
[3] Mohammad Sanad Abu-Darwish, Célia Cabral, Zulfigar Ali, Mei Wang, Shabana I. Khan, Melissa R. Jacob, Surendra K. Jain, Babu L. Tekwani, Fazila Zulfiqar, Ikhlas A. Khan, Hatem Taifour, Lígia Salgueiro, Thomas Efferth. Salvia ceratophylla L. from South of Jordan: new insights on chemical composition and biological activities[J]. Natural Products and Bioprospecting, 2020, 10(5): 307-316.
[4] Joseph Sakah Kaunda, Ying-Jun Zhang. Two New Phenolic Constituents from the Stems of Euphorbia griffithii[J]. Natural Products and Bioprospecting, 2019, 9(6): 405-410.
[5] Yin-E Zhi, Xu-Jie Qin, Hui Liu, Yuan Zeng, Wei Ni, Li He, Zu-Ding Wang, Hai-Yang Liu. Structurally Diverse Polymethylated Phloroglucinol Meroterpenoids from Baeckea frutescens[J]. Natural Products and Bioprospecting, 2018, 8(6): 431-439.
[6] Yuan-Liang Ma, Xiao-Han Tang, Wen-Juan Yuan, Xiao Ding, Ying-Tong Di, Xiao-Jiang Hao. Abietane Diterpernoids from the Roots of Euphorbia ebracteolata[J]. Natural Products and Bioprospecting, 2018, 8(2): 131-135.
[7] Lai-Bin Zhang, Chun Lei, Li-Xin Gao, Jing-Ya Li, Jia Li, Ai-Jun Hou. Isoprenylated Flavonoids with PTP1B Inhibition from Macaranga denticulata[J]. Natural Products and Bioprospecting, 2016, 6(1): 25-30.
[8] Ya-Mei Pan, Yu Zhang, Xiao-Nan Wang, He-Ping Chen, Shun-Lin Li, Ying-Tong Di, Duo-Zhi Chen, Ling-Li Guo, Xiao-Jiang Hao, Hong-Ping He. Chemical Constituents from the Stems of Manihot esculenta[J]. Natural Products and Bioprospecting, 2015, 5(1): 55-59.
[9] Jian-Qiang Zhao, Yan-Ming Wang, Hong-Tao Zhu, Dong Wang, Sheng-Hong Li, Rong-Rong Cheng, Chong-Ren Yang, Yi-Fei Wang, Min Xu, Ying-Jun Zhang. Highly Oxygenated Limonoids and Lignans from Phyllanthus flexuosus[J]. Natural Products and Bioprospecting, 2014, 4(4): 233-242.
[10] Yuan-Feng YANG, Jie-Qing LIU, Lei SHI, Zhong-Rong LI, Ming-Hua QIU. New jatropholane-type diterpenes from Jatropha curcas cv. Multiflorum CY Yang[J]. Natural Products and Bioprospecting, 2013, 3(3): 99-102.
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed