New Secoiridoid Glucosides from Ligustrum lucidum Induce ERK and CREB Phosphorylation in Cultured Cortical Neurons

Guangmiao Fu; Fanny C. F. Ip; Haihong Pang; Nancy Y. Ip

doi:10.1055/s-0029-1240869

Planta Medica, Table of Contents

Planta Med 2010; 76(10): 998-1003
DOI: 10.1055/s-0029-1240869

Natural Product Chemistry

Original Papers
© Georg Thieme Verlag KG Stuttgart · New York

New Secoiridoid Glucosides from Ligustrum lucidum Induce ERK and CREB Phosphorylation in Cultured Cortical Neurons

Guangmiao Fu¹ , Fanny C. F. Ip¹ , Haihong Pang¹ , Nancy Y. Ip¹

¹Department of Biochemistry, Molecular Neuroscience Center, and Biotechnology Research Institute, The Hong Kong University of Science and Technology, Hong Kong SAR, China

Abstract

Two new secoiridoid glucosides, namely iso-oleonuezhenide (1) and methyloleoside 7-ethyl ester (2), along with five known ones, oleonuezhenide (3), nuezhenide (4), oleuropein (5), G13 (6), and jaspolyside methyl ester (7), were isolated from the fruits of Ligustrum lucidum. Their structures were assigned based on ¹H‐NMR, ¹³C‐NMR, and 2D‐NMR analyses, in combination with HR‐MS experiments and the comparison with literature data of related compounds, as well as on chemical experiments. We have examined the ability of these compounds to activate ERK and CREB in cultured cortical neurons. Our studies demonstrate that compound 1 induces ERK and CREB phosphorylation in primary cortical neurons in a dose- and temporal-dependent manner, suggesting its bioactivity on neurons.

Key words

Ligustrum lucidum - Oleaceae - secoiridoid glucosides - iso‐oleonuezhenide - methyloleoside 7‐ethyl ester - ERK - CREB

Full Text

References

1 Carlezon Jr W A, Duman R S, Nestler E J. The many faces of CREB. Trends Neurosci. 2005; 28 436-445
2 Shaywitz A J, Greenberg M E. CREB: a stimulus-induced transcription factor activated by a diverse array of extracellular signals. Annu Rev Biochem. 1999; 68 821-861
3 Grewal S S, York R D, Stork P J. Extracellular-signal-regulated kinase signalling in neurons. Curr Opin Neurobiol. 1999; 9 544-553
4 Hong E J, West A E, Greenberg M E. Transcriptional control of cognitive development. Curr Opin Neurobiol. 2005; 15 21-28
5 Xia M, Huang R, Guo V, Southall N, Cho M H, Inglese J, Austin C P, Nirenberg M. Identification of compounds that potentiate CREB signaling as possible enhancers of long-term memory. Proc Natl Acad Sci USA. 2009; 106 2412-2417
6 Pharmacopoeia Committee of China .Chinese Pharmacopoeia (Part A). Beijing; The Technology Publishing House 2005: 31-32
7 Jiangsu New College of Medicine .The dictionary of Chinese medicine. Shanghai; Shanghai People's Press 1977: 237-239
8 Wu L J, Xiang T, Hou B L, Liang W, Yi S, Zhou X C. Chemical constituents from fruits of Ligustrum lucidum. Acta Bot Sin. 1998; 40 88-92
9 Xu X H, Yang N Y, Qian S H, Xie N, Yu M Y, Duan J A. Study on flavonoids on Ligustrum lucidum. J Chin Med Mater. 2007; 30 538-539
10 Zhang X H, Shi L F. Studies on chemical constituents of Fructus Ligustri lucidi(I). Acad J Sec Milit Med Univ. 2004; 25 333-334
11 Shi L F, Cao Y Y, Chen H S, Dong J P. Isolation and identification of two new secoiridoids of water-soluble chemical constituents from the fruits of Ligustrum lucidum Ait. Acta Pharm Sin. 1997; 32 442-446
12 He Z D, Dong H, Xu H X, Ye W C, Sun H D, But P P. Secoiridoid constituents from the fruits of Ligustrum lucidum. Phytochemistry. 2001; 56 327-330
13 He Z D, But P P, Chan T D, Dong H, Xu H X, Lau C P, Sun H D. Antioxidative glucosides from the fruits of Ligustrum lucidum. Chem Pharm Bull. 2001; 49 780-784
14 Ma S C, He Z D, Deng X L, But P P, Ooi V E, Xu H X, Lee S H, Lee S F. In vitro evaluation of secoiridoid glucosides from the fruits of Ligustrum lucidum as antiviral agents. Chem Pharm Bull (Tokyo). 2001; 49 1471-1473
15 Konno K, Hirayama C, Yasui H, Nakamura M. Enzymatic activation of oleuropein: a protein crosslinker used as a chemical defense in the privet tree. Proc Natl Acad Sci USA. 1999; 96 9159-9164
16 Sung S H, Kim E S, Lee K Y, Lee M K, Kim Y C. A new neuroprotective compound of Ligustrum japonicum leaves. Planta Med. 2006; 72 62-64
17 Fu W Y, Chen Y, Sahin M, Zhao X S, Shi L, Bikoff J B, Lai K O, Yung W H, Fu A K, Greenberg M E, Ip N Y. Cdk5 regulates EphA4-mediated dendritic spine retraction through an ephexin1-dependent mechanism. Nat Neurosci. 2007; 10 67-76
18 Yu J C, Min Z D, Ip N Y. Melia toosendan regulates PC12 cell differentiation via the activation of protein kinase A and extracellular signal-regulated kinases. Neurosignals. 2004; 13 248-257
19 Lonze B E, Ginty D D. Function and regulation of CREB family transcription factors in the nervous system. Neuron. 2002; 35 605-623
20 Fukuyama Y, Koshino K, Hasegawa T, Yamada T, Nakagawa K. New secoiridoid glucosides from Ligustrum japonicum. Planta Med. 1987; 53 427-431
21 Servili M, Baldioli M, Selvaggini R, Macchioni A, Montedoro G. Phenolic compounds of olive fruit: one- and two-dimensional nuclear magnetic resonance characterization of nuezhenide and its distribution in the constitutive parts of fruit. J Agric Food Chem. 1999; 47 12-18
22 Zhao G Q, Xia J J, Dong J X. Glycosides from flowers of Jasminum officinale L. var. grandiflorum. Acta Pharm Sin. 2007; 42 1066-1069
23 Shen Y C, Lin S L, Chein C C. Jaspolyside, a secoiridoid glycoside from Jasminum polyanthum. Phytochemistry. 1996; 42 1629-1631
24 El-Naggar L J, Beal J L. Iridoids. A review. J Nat Prod. 1980; 43 649-707
25 Wu M J, Zhao T Z, Zhang H Y, Yin W P, Fu J G. Studies on chemical constituents of Syringa pubescens (I). Chin Tradit Herb Drugs. 2003; 34 7-8

Prof. Nancy Y. Ip

Department of Biochemistry
The Hong Kong University of Science and Technology

Clear Water Bay

Kowloon, Hong Kong SAR

China

Phone: + 85 2 23 58 72 89

Fax: + 85 2 23 58 27 65

Email: boip@ust.hk

Supplementary Material

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