Liver cancer antiproliferative activity of a new nor-cucurbitacin from Mareya micrantha Müll. Arg.

Mareya micrantha Müll. Arg. (Euphorbiaceae) is a plant used in the Ivorian traditional medicinal system for various medical properties such as laxative, oxytocic, intestinal infectious diseases, malaria, etc. Six cucurbitacin derivatives (tetracyclic triterpenoids) are isolated from the leaves, stem barks or root barks of M. micrantha. Among these compounds, 29-nor-2ß,15α,20ß-trihydroxy-16α-acetyl-3,1,22-trioxo-cucurbita-4,23-diene (1) is a new nor-cucurbitacin isolated from the leaves; 29-nor-1,2,3,4,5,10-dehydro-3,15α,20ß-trihydroxy-16α-acetyl-11,22-dioxo-cucurbita-23-ene 2-O-ß-D-glucopyranoside (2) and 29-nor-2ß,15α,20ß-trihydroxy-16α-acetyl-3,11,22 trioxo-cucurbita-4,23-diene 2-O-ß-D glucopyranoside (3) are new nor-cucurbitacins recently discovered by us in leaves and isolated again for this study while dihydro-epi-isocucurbitacin D (4), tetrahydro-cucurbitacin I (5) and cucurbitacin L (6) are known cucurbitacins but newly isolated from the stem barks and the root barks of M. micrantha. Their chemical structures are established according to spectral data (UV, IR, MS and 1H, 13C NMR). Their antiproliferative activity is explored in vitro on the chemo-resistant human hepatocarcinoma cell line Hep3B. Compound 1 showed a strong and selective antiproliferative activity against this cancer cell line (IC50 value of 0.12 ± 0.05 µM) when compared to normal hepatocytes HepaRG.

Nor-cucurbitacins from the leaves of Mareya micrantha (Benth.) Müll. Arg. (Euphorbiaceae).

Mareya micrantha, an Ivoirian medicinal plant, was investigated for its chemical constituents and antioxidant properties. This study carried out on the hydroethanolic extract of the leaves led to three new nor-cucurbitacins named: 29-nor-1,2,3,4,5,10-dehydro-3,15α,20ß-trihydroxy-16α-acetyl-11,22-dioxo-cucurbita-23-ene 2-O-ß-D-glucopyranoside (1), 29-nor-2ß,20ß,25-trihydroxy-16α-acetyl-3,11,22-trioxo-cucurbita-4,23-diene (2) and 29-nor-2ß,15α,20ß-trihydroxy-16α-acetyl-3,11,22-trioxo-cucurbita-4,23-diene 2-O-ß-D-glucopyranoside (3). The structures were established on the basis of spectral data (NMR, UV, MS and IR). The antioxidant properties evaluated by DPPH and CUPRAC methods gave the best activity with compound 1. The chemotaxonomic significance of the isolation of these compounds in Mareya micrantha, a species belonging to the Euphorbiaceae family, is discussed.

Response surface methodology to optimise Accelerated Solvent Extraction of steviol glycosides from Stevia rebaudiana Bertoni leaves.

Following the approval of steviol glycosides as a food additive in Europe in December 2011, large-scale stevia cultivation will have to be developed within the EU. Thus there is a need to increase the efficiency of stevia evaluation through germplasm enhancement and agronomic improvement programs. To address the need for faster and reproducible sample throughput, conditions for automated extraction of dried stevia leaves using Accelerated Solvent Extraction were optimised. A response surface methodology was used to investigate the influence of three factors: extraction temperature, static time and cycle number on the stevioside and rebaudioside A extraction yields. The model showed that all the factors had an individual influence on the yield. Optimum extraction conditions were set at 100 °C, 4 min and 1 cycle, which yielded 91.8% ± 3.4% of total extractable steviol glycosides analysed. An additional optimisation was achieved by reducing the grind size of the leaves giving a final yield of 100.8% ± 3.3%.

Synthesis of new cellulose ethers using Suzuki-Miyaura reactions.

Cellulose ethers are functionalized biopolymers that are industrially produced through drastic conditions employing gaseous reactants with a high risk of industrial accident. The cellulose ethers that are commercially available generally bear short carbon-chains. In this work, an alternative method using non-gaseous chemicals is proposed. It relies on the use of the Suzuki-Miyaura reaction employing mild, moisture- and air-stable conditions. Relatively innocuous reagents are used for this step, which allows the formation of a wide range of cellulose ethers bearing various functional groups with different chain-length.

Highly valuable microalgae: biochemical and topological aspects.

The past decade has seen a surge in the interest in microalgae culture for biodiesel production and other applications as renewable biofuels as an alternative to petroleum transport fuels. The development of new technologies for the culture of these photosynthetic microorganisms and improved knowledge of their biochemical composition has spurred innovation in the field of high-value biomolecules. These developments are only economically viable if all the microalgae fractions are valorized in a biorefinery strategy. Achieving this objective requires an understanding of microalgae content and the cellular localization of the main biomolecular families in order to develop efficient harvest and sequential recovery technologies. This review summarizes the state of the art in microalgae compositions and topologies using some examples of the main industrially farmed microalgae.

Surface modification of cellulose fibers: towards wood composites by biomimetics.

A biomimetic approach was taken for studying the adsorption of a model copolymer (pullulan abietate, DS 0.027), representing the lignin-carbohydrate complex, to a model surface for cellulose fibers (Langmuir-Blodgett thin films of regenerated cellulose). Adsorption results were assayed using surface plasmon resonance spectroscopy (SPR) and atomic force microscopy (AFM). Rapid, spontaneous, and desorption-resistant surface modification resulted. This effort is viewed as a critical first step towards the permanent surface modification of cellulose fibers with a layer of molecules amenable to either enzymatic crosslinking for improved wood composites or thermoplastic consolidation.