Semisynthesis of alpha-methyl-gamma-lactones and in vitro evaluation of their activity on protein farnesyltransferase

The semisynthesis of xanthanolide derivatives is reported from xanthinin and 4-epi-isoxanthanol, two sesquiterpene lactones isolated from the crude chloroformic extract of the leaves of Xanthium macrocarpum DC. (Asteraceae) by liquid/liquid chromatography. In vitro evaluation of their protein farnesyltransferase (PFTase) inhibitory activity has been investigated. In contrast to other biological activities of xanthanolides, PFTase inhibition is not associated with the presence of the potentially toxic α-methylene-γ-lactone function

Infraspecific variability in the essential oil composition of Lychnophora ericoides

Variations in the composition of the leaf essential oils of wild Lychnophora ericoides, with and without scent, which were grown in three sampling sites, were examined by GC-MS. Results were submitted to principal component and cluster analysis which allowed for two groups of essential oils to be distinguished with regard to scent: cluster I with specimens exhibiting an aromatic scent and containing a high percentage of α-bisabolol (34 ± 23%) and o-cymene (8.4 ± 6.9%); cluster II with specimens without any scent and characterised by a high percentage of caryophyllene oxide (11 ± 9%) and δ-elemene (5.7 ± 6.9%). The two types of oil coexist in all the populations under study, although patterns of aromatic samples deriving from Caldas Novas' State Park reveal chemical differences in relation to the samples from Brasília's National Park and Santo Antônio do Descoberto. Such chemical variations clearly suggest, apart from a geographical influence, genetic differences between individuals in the populations. The high content of α-bisabolol supports the folk medicinal use of arnica as anti-inflammatory

Advanced glycation inhibition and protection against endothelial dysfunction induced by coumarins and procyanidins from Mammea neurophylla.

Advanced glycation end-products (AGEs) are associated with many pathogenic disorders such as pathogenesis of diabetes or endothelial dysfunction leading to cardiovascular events. Therefore, the identification of new anti-AGE molecules or extracts aims at preventing such pathologies. Many Clusiaceae and Calophyllaceae species are used in traditional medicines to treat arterial hypertension as well as diabetes. Focusing on these plant families, an anti-AGE plant screening allowed us to select Mammea neurophylla for further phytochemical and biological studies. Indeed, both DCM and MeOH stem bark extracts demonstrated in vitro their ability to prevent inflammation in endothelial cells and to reduce vasoconstriction. A bioguided fractionation of these extracts allowed us to point out 4-phenyl- and 4-(1-acetoxypropyl)coumarins and procyanidins as potent inhibitors of AGE formation, potentially preventing endothelial dysfunction. The fractionation steps also led to the isolation of two new compounds, namely neurophyllols A and B from the DCM bark extract together with thirteen known mammea A and E coumarins (mammea A/AA, mammea A/AB, mammea A/BA, mammea A/BB, mammea A/AA cycloD, mammea A/AB cycloD, disparinol B, mammea A/AB cycloE, ochrocarpin A, mammea A/AA cycloF, mammea A/AB cycloF, mammea E/BA, mammea E/BB) as well as δ-tocotrienol, xanthones (1-hydroxy-7-methoxyxanthone, 2-hydroxyxanthone) and triterpenes (friedelin and betulinic acid). During this study, R,S-asperphenamate, previously described from fungal origin was also purified

Purification hemisynthesis of xanthatin derivates and in vitro evaluation of their activity towards farnesyltransferase (PFTase)

Originating from America and introduced a few centuries ago in Europe, Xanthium macrocarpum DC. (Asteraceae) also called „Lampourde à gros fruits“ is a species commonly growing on the edges of the Loire. Xanthanolides (sesquiterpene lactones) found in this plant exhibit interesting biological activities [1]. These activities are usually explained by their alkylating properties due to the presence of the α-methylene-γ-lactone function which is also related to the toxicity of several plants. As recent reports pointed out the potential of dimeric or monomeric sesquiterpene lactones as farnesyltransferase (PFTase) inhibitors, we decided to explore this activity knowing that PFTase is an interesting target to find new effective therapeutic agents for the treatment of cancer. So, the objective was to obtained atoxic hemisynthetic derivates from the natural xanthanolides: xanthatin and xanthinin. These compounds were first isolated in one step from the crude chloroformic extract of the leaves of X. macrocarpum using differents methods of chromatography: silica gel and a 5L pilot scale FCPC® (Fast Centrifungal Partition Chromatograph, Kromaton, Angers, France). We have shown that FCPC® is more efficient for purification: solvent consumption is lowered (divided by 2), with highest purity (5 fold increase on average), high loading capacity (2g of extract/L of organic solvent), and manipulation time reduction (few hours versus few days) [2]. Sixteen derivates were investigated as potent inhibitors of protein farnesyl transferase. These results showed that the α-methylene-γ-lactone function is not required to insure a PFTase inhibitory activity whereas the α-methyl-γ-lactone function is responsible for a non competitive-inhibition

Interest-based negotiation for asset sharing policies

Resource sharing is an important but complex problem to be solved. The problem is exacerbated in a coalition context due to policy constraints placed on the resources. Thus, to effectively share resources, members of a coalition need to negotiate on policies and at times refine them to meet the needs of the operating environment. Towards achieving this goal, in this work we propose a novel policy negotiation mechanism based on the interest-based negotiation paradigm. Interest-based negotiation promotes collaboration when compared with more traditional negotiation approaches such as position-based negotiations