Lamalbid, Chlorogenic Acid, and Verbascoside As Tools for Standardization of Lamium Album Flowers—Development and Validation of HPLC–DAD Method

Lamalbid, Chlorogenic Acid, and Verbascoside As Tools for Standardization of Lamium Album Flowers—Development and Validation of HPLC–DAD Method

molecules Article Lamalbid, Chlorogenic Acid, and Verbascoside as Tools for Standardization of Lamium album Flowers—Development and Validation of HPLC–DAD Method Monika E. Czerwi ´nska 1,* , Eleonora Kalinowska 2, Dominik Popowski 1 and Agnieszka Bazylko 1 1 Department of Pharmacognosy and Molecular Basis of Phytotherapy, Medical University of Warsaw, 1 Banach street, 02-097 Warsaw, Poland; [email protected] (D.P.); [email protected] (A.B.) 2 Students’ Scientific Association at the Department of Pharmacognosy and Molecular Basis of Phytotherapy, Medical University of Warsaw, 1 Banach street, 02-097 Warsaw, Poland; [email protected] * Correspondence: [email protected]; Tel.: +48-22-572-0953 Received: 17 March 2020; Accepted: 7 April 2020; Published: 9 April 2020 Abstract: Preparations from the flowers or herb of the white dead nettle (Lamium album L.) are recommended for the treatment of upper respiratory tract disorders or as a topical medication for mild inflammation of the throat, mouth, and skin. Taking into consideration the significance of L. album in traditional medicines across Europe, as well as the lack of studies describing the quantities of their most abundant constituents, we aimed to design a high-performance liquid chromatography coupled with diode-array detection (HPLC–DAD) method for potential standardization procedures of extracts from flowers of L. album. The HPLC–DAD method was developed and validated for quantification of iridoids (lamalbid), phenolic acids/depsides (chlorogenic acid), phenylpropanoids (verbascoside), and flavonoids (rutin; quercetin malonylhexoside; tiliroside) in aqueous and ethanolic-aqueous extracts of Lamii albi flos. The method was specific, accurate, and precise. Lamalbid was the most abundant compound both in aqueous (39.09 1.02 m/g dry weight) and ethanolic-aqueous (26.66 0.64 m/g ± ± dry weight) extracts. The quantities of selected compounds, except for chlorogenic acid and tiliroside, were higher in the aqueous extract than in the ethanolic-aqueous one. In conclusion, the method developed allowed for quantitation of compounds from different classes. In particular, chlorogenic acid and verbascoside have been proposed as reference compounds for routine quantitative control of Lamii albi flos. Keywords: iridoids; phenylpropanoids; phenolic acids; HPLC–DAD; Lamiaceae 1. Introduction Progress towards ensuring and promoting human health requires guarantees in the quality of both food and medicinal plant products. In the latter case, quality specifications are usually provided in the international pharmacopoeias, which however do not include a large number of herbal products. Nowadays, this particular case is widely discussed [1,2]. Nevertheless, the tests designed for the quality control of neglected plants are still required in the developing states of Europe [1]. Even though a wide range of techniques were developed for analysis of polyphenol profiles of herbs, these methods generally missed specificity and sensitivity [3]. Therefore, there is still a need to ensure the quality of traditionally used medicinal products by using modern control techniques and applying suitable Molecules 2020, 25, 1721; doi:10.3390/molecules25071721 www.mdpi.com/journal/molecules Molecules 2020, 25, 1721 2 of 12 standards [1]. It is important to discuss validation procedures, which include identification and quantitative analysis of active compounds, in addition to the control of impurities [4]. A large variety of Lamiaceae species are used as medicinal and aromatic plants all over the world. Some of these are listed among the most popular spices and herbs (e.g., basil, peppermint, thyme), while many others are used as herbal remedies (like purple giant hyssops used in traditional Chinese medicine) [5,6]. The pharmacopoeia monograph of Marrubii herba, also belonging to the family Lamiaceae, provides the HPLC-based determination of diterpenes, such as marrubin (Eur. Ph. 9th Ed.) [7]. In addition, many raw materials from the family Lamiaceae, such as Menthae piperitae folium, Melissae folium, Thymi herba, Leonuri cardiacae herba, or Prunellae spica are used as medicinal plants, standardized according to the monographs of the European Pharmacopoeia (Eur. Ph. 9th Ed.) [7]. Leonuri cardiacae herba, or Prunellae spica, as raw materials that are poor in essential oil, are standardized for other (non-volatile) compounds. Leonuri cardiacae herba is standardized for flavonoid content, whereas Prunellae spica is standardized for the content of triterpene compounds. However, plant materials or their preparations obtained from plants belonging to the subfamily Nepetoideae, rich in essential oils, are also more frequently standardized for non-volatile groups of chemical compounds. Examples are Melissae folium and Menthae piperitae foli extractum siccum, which are standardized for rosmarinic acid (depside) content. The flowers of the white dead nettle have been used officially since the nineteenth century, when the dried and peeled corolla were included in the French Pharmacopoeia (10th Ed.) [8]. White dead nettle preparations have only been used traditionally in the treatment of kidney and bladder complaints to enhance renal excretion of water; while in folk medicine, they have long been used in vaginal infections to treat leucorrhoea or to arrest uterine hemorrhage, and to reduce excessive menorrhagia [9,10]. Recent studies have provided reports on the activity of extracts from L. album herb in vivo, such as a decrease of mRNA expression of liver cyclooxygenase-2 (COX-2), and a decrease of glycogen synthase-3 in diabetic rats, as well as the relaxation of rat tracheal [11–13]. The haemostatic properties of butanolic extract of L. album were investigated by haemostatic test-tail bleeding time determination and by acenocoumarol carrageenan test in rats [14]. Phenylpropanoids have been established as the most diverse class of compounds in the flowers and herb of L. album. Lamalboside, also named lamiuside A, has been recognized as the most characteristic phenylpropanoid ester of L. album, in addition to verbascoside (6)[15]. In our previous study others phenylpropanoids, such as lamiusides B, C, and E, as well as phlinoside D, have been found in this species for the first time. We established that this class of compounds was likely to determine the potential role of white dead nettle preparations in cytokines related inflammation [16,17]. However, iridoids such as lamalbid (lamiridoside, 1), lamiol, and caryoptoside (2) seem to play a role of chemotaxonomic markers of species from the genus Lamium [18,19]. Last but not least, phenolic acids and/or depsides, in particular chlorogenic acid (3), as well as flavonoids have also been identified in the extracts of the flower and herb of L. album [17]. To date, the extracts tested in the biological models were standardized mainly based on total phenolic and flavonoids content expressed as gallic acid and quercetin equivalents, respectively [12,13,20]. The quantified phenolic compounds in the purified ethanolic extract of L. album accounted for 500.7 50.0 mg g 1 of extract [21]. In some studies, the contents of ± − phenolic acids were determined in the methanolic and chloroform extracts of L. album herb, and in the in situ and in vitro cultivated plants with HPLC–DAD method of external standards [22,23]. However, the quantification of phenolic acids, flavonoids, and quercetin glycosides was performed using different mobile phases in these studies [23]. To the best of our knowledge, there is no available literature providing data on the simultaneous quantitation of white dead nettle phytochemicals representing the different classes of compounds, such as lamalbid (1), chlorogenic acid (3), verbascoside (6), and quercetin malonylhexoside (7), as well as HPLC-based quantitative method for analysis of aqueous and ethanolic-aqueous extracts of L. album. Therefore, due to the traditional significance of L. album and the lack of the studies describing the quantities of their most abundant constituents in aqueous Molecules 2020, 25, 1721 3 of 12 and ethanolic-aqueous extracts, we aimed to develop and validate HPLC–DAD method for potential Moleculesstandardization 2020, 25, x proceduresFOR PEER REVIEW of this plant material. We decided to focus on quantitation of iridoids3 of and 12 phenolic compounds. In particular, these latter compounds occur widely in natural products and can andbe easily phenolic used compounds. for standardization. In particular, these latter compounds occur widely in natural products and can be easily used for standardization. 2. Results and Discussion 2. Results and Discussion The Lamiales is a wide order of plants among which well-known, or economically important members,The Lamiales play a role is a inwide traditional order of medicine plants amon or diet.g which In this well-known, study the standardizationor economically procedureimportant members,of Lamii albi play flos a roleextracts in traditional was developed. medicine Phenolic or diet. In compounds, this study the phenylpropanoids, standardization procedure and iridoids of Lamiiplay aalbi key flos role extracts in the was activity developed. of extracts Phenolic as well compounds, as being meaningful phenylpropanoids, chemical and tools, iridoids particularly play a keychlorogenic role in the acid activity (3), verbascoside of extracts as (6 ),well and as tiliroside being meaningful (8), which chemical are useful tools, in the particularly quantitative chlorogenic analysis of acidplant ( materials3),

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