Paula Carrero scite author profile

Linear and branched compounds that contain two, three or five units of galloyl (3,4,5-trihydroxybenzoyl) or its isomer 2,3,4-trihydroxybenzoyl, as well as other mono- or dihydroxybenzoyl moieties have been synthesized. These molecules have been evaluated for their in vitro inhibitory effects against a wide panel of viruses showing preferential activity against HIV and HCV. Our structure-activity relationship studies demonstrated that the 2,3,4-trihydroxybenzoyl moiety provides better antiviral activities than the galloyl (3,4,5-trihydroxybenzoyl) moiety that is present in natural green tea catechins. This observation can be of interest for the further rational exploration of compounds with anti-HCV/HIV properties. The most notable finding with respect to HIV is that the tripodal compounds 43 and 45, with three 2,3,4-trihydroxybenzoyl moieties, showed higher activities than linear compounds with only one or two. With respect to HCV, the linear compounds, 52 and 41, containing a 12 polymethylene chain and two 2,3 di- or 2,3,4 tri-hydroxybenzoyl groups respectively at the ends of the molecule showed good antiviral efficiency. Furthermore, the anti-HCV activity of both compounds was observed at concentrations well below the cytotoxicity threshold. A representative member of these compounds, 41, showed that the anti-HCV activity was largely independent of the genetic make-up of the HCV subgenomic replicon and cell lines used.

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Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

Muñoz–García

García-Jiménez

Carrero

et al. 2014

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Heparin-like saccharides play an essential role in binding to the fibroblast growth factor (FGF)-1 and to their membrane receptors fibroblast growth factor receptor forming a ternary complex that is responsible of the internalization of the signal, via the dimerization of the intracellular regions of the receptor. In this study, we report the binding affinities between five synthetic hexasaccharides with human FGF-1 obtained by surface plasmon resonance experiments, and compare with the induced mitogenic activity previously obtained. These five oligosaccharides differ in sulfation pattern and in sequence. We have previously demonstrated that all the five hexasaccharides have similar 3D structure of the backbone. Consequently, the differences in binding affinity should have their origin in the substitution pattern. Subsequently, the different capacity for induction of mitogenic activity can be, at least partially, explained from these binding affinities. Interestingly, one of the oligosaccharides lacking axially symmetry ( 3: ) was biologically inactive, whereas the other ( 2: ) was the most active. The difference between both compounds is the order of the FGF-binding motifs along the chain relative to the carbohydrate polarity. We can conclude that the directionality of the GAG chain is essential for the binding and subsequent activation. The relative biological activity of the compounds with regular substitution pattern can be inferred from their values of IC50. Remarkably, the sulfate in position 6 of d-glucosamine was essential for the mitogenic activity but not for the interaction with FGF-1.

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3D structure of a heparin mimetic analogue of a FGF-1 activator. A NMR and molecular modelling study

et al. 2013

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The motional behaviour of heparin oligosaccharides in solution is best described as a top rotor having two perpendicular rotation axes. This prevents an accurate extraction of interprotonic distances by NOESY/ROESY based methods. In this paper, we describe the solution structure of the hexasaccharide 1 calculated from high exactitude distance data obtained from off-resonance ROESY combined with a long MD simulation of 500 ns. In previous studies, we have found that two synthetic hexasaccharides having the sulphate groups directed towards one side of its central plane have an opposite biological activity, while 1 is unable to activate the FGF-1 signalling pathway, the other (2) is even more active than the regular region derived hexasaccharide (3) that mimics the natural active compound, heparin. From the structural analysis it was concluded that 1 has similar three-dimensional characteristics to 2 or 3 and therefore the differences in the activity should be due to the arrangement of the sulphate groups within the hexasaccharidic sequence.

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Differential Recognition of Mannose‐Based Polysaccharides by Tripodal Receptors Based on a Triethylbenzene Scaffold Substituted with Trihydroxybenzoyl Moieties

et al. 2012

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The tripodal receptors 1 and 2 based on a triethylbenzene scaffold substituted with trihydroxybenzoyl groups have been synthesised. The conformational preferences and carbohydrate‐binding ability of 1 and 2 have been examined by NMR spectroscopy and modelling procedures. The results reveal that the particular structural pre‐organisation of 2 facilitates the recognition, in a highly competitive medium (DMSO), of a mannose‐based polysaccharide consisting of a linear saccharide chain continuously decorated by α(1→2)‐linked branching mannose moieties. By contrast, other α(1→2)‐substituted polysaccharides or different monosaccharides are not bound, revealing the selectivity of the interaction. Due to the importance of α(1→2) mannosides, which are abundantly present on the glycan shield of several pathogens, the results reported here open attractive prospects for the potential application of 2 or its derivatives in future antiinfective strategies.

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Paula Carrero

Linear and branched alkyl-esters and amides of gallic acid and other (mono-, di- and tri-) hydroxy benzoyl derivatives as promising anti-HCV inhibitors

Importance of the polarity of the glycosaminoglycan chain on the interaction with FGF-1

3D structure of a heparin mimetic analogue of a FGF-1 activator. A NMR and molecular modelling study

Differential Recognition of Mannose‐Based Polysaccharides by Tripodal Receptors Based on a Triethylbenzene Scaffold Substituted with Trihydroxybenzoyl Moieties

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