Multicomponent reactions (MCRs) are composed of three or more reagents in which the final
product has all or most of the carbon atoms from its starting materials. These reactions represent, in the
medicinal chemistry context, great potential in the research for new bioactive compounds, since their products
can present great structural complexity. The aim of this review is to present the main multicomponent reactions
since the original report by Strecker in 1850 from nowadays, covering their evolution, highlighting their
significance in the discovery of new bioactive compounds. The use of MCRs is, indeed, a growing field of
interest in the synthesis of bioactive compounds and approved drugs, with several examples of commerciallyavailable
drugs that are (or can be) obtained through these protocols.
BackgroundThe discovery and development of anti-malarial compounds of plant origin and semisynthetic derivatives thereof, such as quinine (QN) and chloroquine (CQ), has highlighted the importance of these compounds in the treatment of malaria. Ursolic acid analogues bearing an acetyl group at C-3 have demonstrated significant anti-malarial activity. With this in mind, two new series of betulinic acid (BA) and ursolic acid (UA) derivatives with ester groups at C-3 were synthesized in an attempt to improve anti-malarial activity, reduce cytotoxicity, and search for new targets. In vitro activity against CQ-sensitive Plasmodium falciparum 3D7 and an evaluation of cytotoxicity in a mammalian cell line (HEK293T) are reported. Furthermore, two possible mechanisms of action of anti-malarial compounds have been evaluated: effects on mitochondrial membrane potential (ΔΨm) and inhibition of β-haematin formation.ResultsAmong the 18 derivatives synthesized, those having shorter side chains were most effective against CQ-sensitive P. falciparum 3D7, and were non-cytotoxic. These derivatives were three to five times more active than BA and UA. A DiOC6(3) ΔΨm assay showed that mitochondria are not involved in their mechanism of action. Inhibition of β-haematin formation by the active derivatives was weaker than with CQ. Compounds of the BA series were generally more active against P. falciparum 3D7 than those of the UA series.ConclusionsThree new anti-malarial prototypes were obtained from natural sources through an easy and relatively inexpensive synthesis. They represent an alternative for new lead compounds for anti-malarial chemotherapy.
O ácido glicirrizínico (GL), também conhecido como glicirrizina, é uma saponina triterpênica, um produto natural encontrado na raiz de Glycyrrhyza glabra L. ("licquorice" ou "alcaçuz"), utilizada mundialmente como edulcorante e também na medicina tradicional do Oriente. Este artigo de revisão enfoca os novos compostos sintetizados usando GL ou sua aglicona, o ácido glicirretínico (GLA), como materiais de partida e as atividades farmacológicas descritas para os mesmos e seus derivados.Glycyrrhizinic acid (GL), also known as glycyrrhizin, is a triterpene saponin, a natural product found on the root of Glycyrrhyza glabra L. ("licquorice"), used worldwide as sweetener and in the traditional eastern medicines. This review is focused on a series of new derivatives synthesized using GL and its aglycon, glycyrrhetinic acid (GLA), as starting materials, the pharmacological activities described for those compounds, as well as new activities reported for GL and GLA themselves.
Glycyrrhizin or, more correctly, Glycyrrhizinic acid is a triterpenoid saponin obtained from the root and rhizome extracts of Licorice (Glycyrrhiza glabra), being commonly used as a sweetener, being reported asat least-30 times sweeter than sucrose. This natural product, along with its aglycone glycyrrhetinic
Coumarin-β-ketoesters were used to synthesize new blue-fluorescent compounds exhibiting ICT. The Knoevenagel intermediate suggests that our Biginelli reaction passing by this mechanistic way is unlikely.
Neste trabalho nós apresentamos uma revisão sobre a síntese em fase sólida de metabólitos secundários, tais como alcalóides, poliaminas, esteróides, terpenos e flavonóides, descritos na literatura a partir de 2000. Um número considerável de rotas sintéticas elegantes e desafiadoras, usando suportes sólidos, será discutido.In this manuscript, we disclose solid-phase organic syntheses (SPOS) of small-molecules of some secondary metabolites, such as alkaloids, polyamines, steroids, terpenes, and flavonoids, described in the literature since 2000. A number of elegant, efficient and challenging syntheses on solid support will be presented.
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