A Review on the Phytochemistry, Pharmacology, and Pharmacokinetics of Amentoflavone, a Naturally-Occurring Biflavonoid

A Review on the Phytochemistry, Pharmacology, and Pharmacokinetics of Amentoflavone, a Naturally-Occurring Biflavonoid

molecules Review A Review on the Phytochemistry, Pharmacology, and Pharmacokinetics of Amentoflavone, a Naturally-Occurring Biflavonoid Sheng Yu 1, Hui Yan 1, Li Zhang 1, Mingqiu Shan 1,2,*, Peidong Chen 1, Anwei Ding 1 and Sam Fong Yau Li 2 1 Jiangsu Collaborative Innovation Center of Chinese Medicinal Resources Industrialization, College of Pharmacy, Nanjing University of Chinese Medicine, 138 Xianlin Road, Nanjing 210023, China; [email protected] (S.Y.); [email protected] (H.Y.); [email protected] (L.Z.); [email protected] (P.C.); [email protected] (A.D.) 2 Department of Chemistry, National University of Singapore, Singapore 117543, Singapore; [email protected] * Correspondence: [email protected]; Tel.: +86-25-8581-1519; Fax: +86-25-8581-1524 Academic Editor: Thomas J. Schmidt Received: 12 January 2017; Accepted: 14 February 2017; Published: 16 February 2017 Abstract: Amentoflavone (C30H18O10) is a well-known biflavonoid occurring in many natural plants. This polyphenolic compound has been discovered to have some important bioactivities, including anti-inflammation, anti-oxidation, anti-diabetes, and anti-senescence effects on many important reactions in the cardiovascular and central nervous system, etc. Over 120 plants have been found to contain this bioactive component, such as Selaginellaceae, Cupressaceae, Euphorbiaceae, Podocarpaceae, and Calophyllaceae plant families. This review paper aims to profile amentoflavone on its plant sources, natural derivatives, pharmacology, and pharmacokinetics, and to highlight some existing issues and perspectives in the future. Keywords: amentoflavone; biflavonoid; natural derivatives; pharmacokinetics; pharmacology; phytochemistry 1. Introduction Amentoflavone (C30H18O10) is a common biflavonoid chemically named as 8-[5-(5,7-dihydroxy- 4-oxo-4H-chromen-2-yl)-2-hydroxyphenyl]-5,7-dihydroxy-2-(4-hydroxyphenyl)-4H-chromen-4-one, which naturally occurs in many plants. It is also considered as an apigenin dimer linked by a C30-C800 covalent bond (Figure1). This compound was firstly isolated by Okigawa and his colleagues in 1971 from three plants of the Selaginella species (Selaginella tamariscina (Beauv.) Spring, Selaginella nipponica, and Selaginella pachystachys)[1]. From then on, phytochemical researchers have isolated and identified this biflavonoid from more than 120 plants, some of which have been used as traditional folk medicines in many regions of the world for even thousands of years. With the development of modern pharmacology, more and more evidence has proved many of the bioactivities of amentoflavone, including anti-oxidant [2], anti-inflammatory [3], anti-senescence [4], anti-tumor [5], anti-virus [6], and anti-fungal [7] effects, as well as therapeutic effects on the central nervous system [8] and cardiovascular system [9], etc. With its good pharmacological performance and high content, amentoflavone is even listed as the chemical marker of Selaginellae Herba (“Juanbai” in Chinese, which represents the whole plants of Selagenella tamariscina or Selaginella pulvinata) for quality evaluation in the Chinese Pharmacopoeia [10]. Due to its large range of bioactivities and originating from nature, amentoflavone has attracted increasing focus from a number of research fields. Here, in this paper, we aim to provide a review Molecules 2017, 22, 299; doi:10.3390/molecules22020299 www.mdpi.com/journal/molecules MoleculesMolecules2017 2017, 22, 22, 299, 299 2 of2 22 of 23 this naturally-occurring biflavonoid, describing its sources, natural derivatives, pharmacological ofeffects, this naturally-occurring and pharmacokinetics, biflavonoid, and to help describing researchers its understand sources, natural and utilize derivatives, it in a better pharmacological way. effects, and pharmacokinetics, and to help researchers understand and utilize it in a better way. FigureFigure 1.1. Chemical structure structure of of amentoflavone. amentoflavone. 2.2. Sources Sources As a polyphenolic compound, amentoflavone exists in a large number of plants (Table 1). As a polyphenolic compound, amentoflavone exists in a large number of plants (Table1). To our knowledge, the major sources are the plants of Calophyllaceae, Clusiaceae, Cupressaceae, To our knowledge, the major sources are the plants of Calophyllaceae, Clusiaceae, Cupressaceae, Euphorbiaceae, and Selaginellaceae families, and Calophyllum, Garcinia, and Selaginella species, etc. Euphorbiaceae, and Selaginellaceae families, and Calophyllum, Garcinia, and Selaginella species, etc. Some of these plants have been used as folk phytomedicines for a very long time, such as Gingko biloba, SomeLobelia of thesechinensis plants, Polygala have beensibirica used, Ranunculus as folk phytomedicines ternatus, Selaginella for a pulvinata very long, Selagenella time, such tamariscina as Gingko for biloba , Lobeliatraditional chinensis Chinese, Polygala medicines sibirica (TCMs),, Ranunculus Calophyllum ternatus inophyllum, Selaginella, Selaginella pulvinata ,bryopterisSelagenella for tamariscina traditional for traditionalIndian medicines, Chinese Byrsonima medicines intermedia (TCMs), forCalophyllum traditional inophyllumAmerican medicine,, Selaginella and bryopteris Cnestis ferrugineafor traditional and IndianDrypetes medicines, gerrardii Byrsonimafor traditional intermedia Africanfor medicines. traditional American medicine, and Cnestis ferruginea and Drypetes gerrardii for traditional African medicines. Table 1. Plants containing amentoflavone. Table 1. Plants containing amentoflavone. No. Plant Family Part References 1 Amanoa almerindae Phyllanthaceae aerial parts [11] No. Plant Family Part References 2 Alchornea glandulosa Euphorbiaceae leaves [12] 3 1 AlchorneaAmanoa triplinervia almerindae PhyllanthaceaeEuphorbiaceae aerial partsleaves [11] [13] 2 Alchornea glandulosa Euphorbiaceae leaves [12] 4 Aletris spicata Liliaceae herbs [14] 3 Alchornea triplinervia Euphorbiaceae leaves [13] 5 4 AllanblackiaAletris monticola spicata LiliaceaeGuttiferae herbsleaves [14] [15] 6 5 AndrosaceAllanblackia umbellata monticola GuttiferaePrimulaceae leaveswhole plants [15] [16] 7 6 AntidesmaAndrosace bunius umbellata PrimulaceaePhyllanthaceae whole plantsleaves [16] [17] 8 7 AntidesmaAntidesma laciniatum bunius PhyllanthaceaeEuphorbiaceae leavesleaves [17] [18] 9 8 BiophytumAntidesma sensitivum laciniatum EuphorbiaceaeOxalidaceae leavesroots [18] [19] 9 Biophytum sensitivum Oxalidaceae roots [19] 10 Biota semipervirens Cupressaceae leaves [20] 10 Biota semipervirens Cupressaceae leaves [20] 11 11 ByrsonimaByrsonima crassa crassa MalpighiaceaeMalpighiaceae leavesleaves [21] [21] 12 12 ByrsonimaByrsonima intermedia intermedia MalpighiaceaeMalpighiaceae leavesleaves [22] [22] 13 13 CaesalpiniaCaesalpinia pyramidalis pyramidalis LeguminosaeLeguminosae leavesleaves [23] [23] 14 14 CallitrisCallitris rhomboidea rhomboidea CupressaceaeCupressaceae leavesleaves [24] [24] Calocedrus microlepic var. 15 Calocedrus15 microlepic var. formosana formosanaCupressaceae Cupressaceae leavesleaves [25] [25] formosana formosana 16 Calophyllum brasiliense Calophyllaceae leaves [26] 16 Calophyllum brasiliense Calophyllaceae leaves [26] 17 17 CalophyllumCalophyllum ferrugineum ferrugineum CalophyllaceaeCalophyllaceae barks,barks, leaves leaves [27] [27] 18 18 CalophyllumCalophyllum flavoramulum flavoramulum CalophyllaceaeCalophyllaceae leavesleaves [28] [28] 19 19 CalophyllumCalophyllum incrassatum incrassatum CalophyllaceaeCalophyllaceae barks,barks, leaves leaves [29] [29] 20 20 CalophyllumCalophyllum inophylloide inophylloide CalophyllaceaeCalophyllaceae heartwoodheartwood [30] [30] 21 21 CalophyllumCalophyllum inophyllum inophyllum CalophyllaceaeCalophyllaceae leavesleaves [31] [31] roots [32] 22 Calophyllum membranaceum Guttiferae roots [32] 22 Calophyllum membranaceum Guttiferae leaves [33] 23 Calophyllum pinetorum Guttiferae stem barks,leaves leaves [34] [33] 23 Calophyllum pinetorum Guttiferae stem barks, leaves [34] Molecules 2017, 22, 299 3 of 23 Table 1. Cont. No. Plant Family Part References 24 Calophyllum rivulare Calophyllaceae leaves [35] 25 Calophyllum symingtonianum Calophyllaceae barks, leaves [36] 26 Calophyllum venulosum Calophyllaceae leaves [37] 27 Campylospermum calanthum Ochnaceae leaves [38] 28 Campylospermum mannii Ochnaceae leaves [39] fruits [40] 29 Canarium album Burseraceae leaves [41] 30 Canarium pimela Burseraceae fruits [42] 31 Canarium schweinfurthii Burseraceae seeds [43] 32 Casearia clarkei Flacourtiaceae leaves [44] 33 Celaenodendron mexicanum Euphorbiaceae leaves, twigs [45] 34 Cephalotaxus fortunei Cephalotaxaceae leaves [46] 35 Cephalotaxus koreana Cephalotaxaceae leaves, twigs [47] 36 Cephalotaxus oliveri Cephalotaxaceae leaves [48] 37 Chamaecyparis obtusa Cupressaceae leaves [49] 38 Chrozophora tinctoria Euphorbiaceae aerial parts [3] 39 Cnestis ferruginea Connaraceae roots [50] 40 Cunninghamia lanceolata Taxodiaceae branches, leaves [51] 41 Cupressocyparis leylandii Cupressaceae leaves [52] 42 Cupressus chengiana Cupressaceae - [53] 43 Cupressus sempervirens Cupressaceae leaves [54] 44 Cycas beddomei Cycadaceae cones [55] 45 Cycas circinalis Cycadaceae leaflets [56] 46 Cycas panzhihuaensis Cycadaceae flowers [57] 47 Cycas pectinata Cycadaceae fruits [58] 48 Cycas revoluta Cycadaceae leaflets [56] 49 Dacrydium araucarioides Podocarpaceae leaves [6] 50 Decussocarpus rospigliosii Podocarpaceae leaves [59] 51 Discocleidion rufescens Euphorbiaceae aerial parts [60] 52 Dorstenia barteri Moraceae twigs [61] 53 Drypetes gerrardii Euphorbiaceae stems [62]

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