О. А. Андреева scite author profile

A new scheme of the isolation of all fractions of polyphenolic compounds from wormwood-leaved ambrosia (Ambrosia artemisiifolia L.) collected in the budding period is proposed. The main components in the total extract are phenolcarboxylic acids (ferulic, isoferulic, caffeic, chlorogenic acids and caffeic acid glycoside) coumarins (scopoletin, scopolin, esculetin, esculin, umbelliferone, skimmin), and flavonoids (jaceidin, quercetin, isorhamnetin, isorhamnetin-3-rutinoside, quercimeritrin, isoquercitrin, and glycosides of xanthomicrol and 4¢,5-dihydroxy-3,6,7,8-tetramethoxyflavone). Polymethoxylated flavonoids have been identified in ambrosia and characterized for the first time, including jaceidin (5,7,4¢-trihydroxi-3,6,3¢trimethoxyflavone), xanthomicrol (4¢,5-dihydroxy-6,7,8-trimethoxyflavone), 4¢,5-dihydroxy-3,6,7,8-tetramethoxyflavone, and their glycosides. The results of biological investigations of the obtained polyphenolic fractions showed their pronounced hepatoprotective properties (exceeding those of the well-known drug karsil) and hypolipemic activity (comparable with that of lipanor).

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Ambrosia artemisiifolia as a Source of Biologically Active Substances

Parkhomenko

Андреева

Oganesyan

et al. 2005

Pharm Chem J

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A technology of obtaining biologically active substances from Ambrosia artemisiifolia has been analyzed and experimentally proved taking into account the vegetation stage. Use of the above-ground parts of the plant collected in the stage of budding as the starting raw material solves two important problems by (i) eliminating the source of the allergenic factor (pollen) and (ii) providing the maximum total yield of biologically active fractions, from which it is possible to isolate individual compounds. In the biologically active fractions isolated from the material collected in the budding stage, the main sesquiterpene lactones are cumanin and peruvin, while the other lactones are present in trace amounts. Pharmacological screening revealed active fractions, which are worthy of profound experimental investigation with respect to their influence on the systemic and regional hemodynamics.

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Isolation of diosmin from plants of the genusVicia andHyssop us officinalis and its influence on blood coagulation

et al. 1995

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Diosmetin glycosides from caucasian vetch: Isolation and study of biological activity

et al. 1998

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There is a permanent interest in medicinal plants around the world: about 40% of all remedies are of plant origin, while their proportion in drugs for the therapy of cardiovascular diseases amounts to 80~ One of the main reasons for this success of medicinals of natural origin is the absence of some detrimental side effects frequently inherent in synthetic drugs. By now, more than 500 plant species have been characterized with respect to their pharmacological properties, many of these representing an important source of raw materials for commercial drug production.Our attention has been attracted to plants belonging to the vetch (Vicia) genus of the legumes family. This is explained by their wide occurrence in the territory of Russia and by the fact that many species are cultivated as feeds, for decorative purposes, or for honey culturing and some plants are used in folk medicine [1,2]. Unfortunately, the chemical composition of vetch plants is insufficiently studied, although it has been established that almost all of the species studied contain flavonoids-compounds having a broad spectrum of biological activity. The object of our study was the Caucasian vetch occurring in the region of North Caucasus. As we have previously established [3], the above-ground part of the plant contains a group of diosmetin glycosides (2% of the air-dry mass) possessing hypolipidemic and eapiUary-consolidating activity [3]. According to the data of chromatographic analyses, the dominating components are diosmetin glycosides, while monoglycosides are present in trace amounts. As is known, glycosidation in most cases increases water solubility, which is a factor important for physiological activity manifestation.Our primary task was to develop an economically efficient method for extraction of the above group of active compounds. The conventional methods described in the literature (allowing the collection of glycosides, in particular-digly-I Pyatigorsk State Pharmaceutical Academy, Pyatigorsk, Russia. 595cosides, and of flavonoids in a sufficiently high yield) is based on a sequential treatment of the water-ethanol tincture, obtained upon a preliminary fat. extraction, by various extractants (diethyl ether, ethyl acetate, butanol, etc.), followed by purification of the required fractions and isolation of the target flavonoids (usually, by column chromatography). Our attempts at using these techniques were unsuccessful [3,4]. The procedure is rather time-consuming (we spent about 150 h obtaining the target group of compounds), involves the use of large solvent volumes (because of repeated operations such as multiple extraction, heating cycles, etc.), and leads to partial hydrolysis of the target glycosides (which probably explains the increase in the monoglycoside content in the total glycosides extracted-about 10% of the total yield, which by no means corresponds to the actual content of monoglycosides in the initial raw material).The proposed method of flavonoid isolation consists in extracting the air-dry material (above-ground pa...

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