Etude de la biotransformation de pronucléotides à visée antivirale par couplage LC-MS et électrophorèse capillaire ; Conception d'une méthode d'extraction "on-line" appliquée à une drogue anticancéreuse : la 5-fluorouracile

MONTPELLIER-BU Sciences (341722106) / SudocSudocFranceF

A methodological approach for the thermal stability and stress exposure studies of a model antibody

International audienceThe anti-horseradish peroxidase (HRP) antibody is conventionally used in immunohistochemistry. More recently, it has been used as the key element in a gold standard method to evaluate the functionality of antibody-based materials. However, few information are available about its melting temperature and its stability after exposition to laboratory stress conditions including freeze-drying and freeze-thawing cycles. The aim of this study was to evaluate the effects of these environmental constraints on the anti-HRP antibody in order to further use it as a reference in quality control and in the development of new antibody-based materials. In the developed method, the anti-HRP antibody is covalently immobilized onto a solid surface. After the direct recognition of its antigen HRP, the signal is proportional to the number of antibody active binding sites. The method was successfully utilized to accurately evaluate the anti-HRP antibody melting temperature (Tm was 73.5 ± 0.2 °C). The method is a rapid and reliable tool with minimal cost for studying the anti-HRP antibody stability to solvent stress, freeze-thawing cycles, and freeze-drying process. The obtained information may be useful for routine analysis or in the development of antibody-based materials. This can be also proposed as an easy way to control antibody freeze-drying process

Méthodologie intra-capillaire pour la protéolyse et la séparation d'anticorps monoclonaux à usage thérapeutique,

International audienc

A gold standard method for the evaluation of antibody-based materials functionality: Approach to forced degradation studies

International audienc

D-PES methodology for the analysis of therapeutic antibodies,

International audienc

On-line capillary electrophoresis-based enzymatic methodology for the study of polymer-drug conjugates

International audienceThis work aims at studying the potentialities of an on-line capillary electrophoresis (CE)-based digestion methodology for evaluating polymer–drug conjugates degradability in the presence of free trypsin (in-solution digestion). A sandwich plugs injection scheme with transverse diffusion of laminar profile (TDLFP) mode was used to achieve on-line digestions. Electrophoretic separation conditions were established using poly-l-Lysine (PLL) as reference substrate. Comparison with off-line digestion was carried out to demonstrate the feasibility of the proposed methodology. The applicability of the on-line CE-based digestion methodology was evaluated for two PLL-drug conjugates and for the four first generations of dendrigraft of lysine (DGL). Different electrophoretic profiles presenting the formation of di, tri, and tetralysine were observed for PLL-drug and DGL. These findings are in good agreement with the nature of the linker used to link the drug to PLL structure and the predicted degradability of DGL. The present on-line methodology applicability was also successfully proven for protein conjugates hydrolysis. In summary, the described methodology provides a powerful tool for the rapid study of biodegradable polymers

A rapid reversible colorimetric assay for the characterization of aminated solid surfaces

The covalent immobilization of synthetic or natural macromolecular compounds containing amino groups onto polystyrene (PS) solid surfaces is of great interest in diagnostic applications. A sensitive assay allowing the determination of reactive end groups is therefore a powerful tool for predicting the performance of the active surface. Recently, we reported the use of the Coomassie brilliant blue (CBB) colorimetric reagent to quantify protonated groups (N +) in linear and dendritic structures in solution (Coussot et al., Polym Int 58(5):511- 518, 2009). In this work, a simple method using CBB dye for the characterization of PS aminated solid surfaces is developed. The proposed amino density estimation by colorimetric assay (ADECA) method is based on the reversible complexation of the dye with the N + groups on solid surfaces. The assay measures the released dye thanks to the use of a unique sodium carbonate-methanol buffer. Thereby, for the first time, the same surface can be used for characterization and for further coupling applications. A surface density of four N + groups per square nanometer can be measured in PS microwell format, the whole characterization being done within 30 min. Performances of this new colorimetric-based method are detailed. The ADECA method is further demonstrated to be useful for the characterization of aminated polypropylene and glass materials with various sizes and shapes

Antibody-based surfaces: Rapid characterization using two complementary colorimetric assays

International audienceFinding a general solution for optimizing the grafting of antibody on solid surfaces is difficult due to the variety of material, grafting principles and chemistries or surface formats available (beads, microplates, fibers, etc.). Pre-screening methods able to assess grafting efficiency (GE) and specific activity (SA) are required. In this context, we present here two colorimetric assays that can be used on a wide variety of surface format, chemistry, etc. The first one, ADECA (Amino Density Estimation by Colorimetric Assay) allows a rapid estimation of grafted antibodies and allows calculating the GE. The second one, A2HRP (Antibody Anti-HorseRadish Peroxidase) provides a measure of the amount of active antibody, which, combined to ADECA, is used to determine the SA of grafted antibody. Analytical parameters (limit of detection, repeatability, linearity, etc.) of these two colorimetric assays are presented. Using two commercially available microplates, we demonstrated that, when used in parallel, these rapid and sensitive methods are well adapted to pre-screening of antibody grafting performances

α-Glucosidase Inhibitory Activity of Tannat Grape Phenolic Extracts in Relation to Their Ripening Stages

International audienceThe present study aimed to screen grape extracts as novel α-glucosidase inhibitors to prevent type-2 diabetes and hyperglycemia. The total polyphenol content (TPC) was measured by Folin-Ciocalteu assay and the stilbene, anthocyanin and flavan-3-ol compounds were measured by Ultra High-Performance Liquid Chromatography coupled to Mass Spectrometry (UHPLC-MS). The α-glucosidase inhibitory of seed and skin Tannat grape extracts at four ripening stages were investigated. The highest TPC values were measured in seeds at the “veraison stage” (65.29 ± 5.33 g of Gallic Acid Equivalent (GAE) per kilogram of Fresh Weight (FW)). This was in accordance with the high flavan-3-ol contents measured for these two extracts (43.22 ± 2.59 and 45.45 ± 6.48 g/kg of seeds FW, respectively). The skin and seed extracts at the first stage of ripening exerted strong α-glucosidase inhibition, exceeding 95% (p < 0.05). A high linear correlation (R = 0.723, p ≤ 0.05) was observed between flavan-3-ol contents and the α-glucosidase inhibitory activity. The stilbene contents and this activity were moderately to strongly anti-correlated (R = –0.828, p ≤ 0.05 for trans-resveratrol). The enzyme kinetic studies revealed a mixed type of inhibition. This study brings promising results for the therapeutic potential of seed and skin Tannat grape extracts as a functional food product with anti-diabetic activity