Site-selective and rewritable labeling of DNA through enzymatic, reversible, and click chemistries

International audienc

Synthèse et évaluation biologique de dérivés polyamines en tant qu’agents antikinétoplastidés

This project is at the interface of chemistry and biology and relies on the expertise of two different teams. This thesis involves the design and development of inhibitors directed against Kinetoplastids. It is urgent to develop new therapeutic strategies to respond to drug resistance and toxicity of currently used drugs against these parasites. Polyamine metabolism and transporter have been demonstrated as essential for parasite growth. Therefore, these systems are potential drug targets for development of antikinetoplastid compounds. We chose to synthesize polyamine derivatives and evaluate their biological activity against Kinetoplatids. Fifty-four compounds, divided into three chemical series, have been synthesized and evaluated. Many have shown a micromolar biological activity in vitro against parasite. In vivo evaluation is foreseen for the most promising derivative.Ce projet d’interface Chimie/Biologie repose sur les expertises complémentaires de deux équipes. Il concerne la conception et le développement d’inhibiteurs dirigés contre les Kinétoplastidés (trypanosomes, leishmanies). Il est en effet urgent de développer de nouvelles stratégies thérapeutiques pour répondre à la chimiorésistance et à la toxicité des médicaments actuellement utilisés contre ces parasites. Le métabolisme et le transport des polyamines étant essentiel chez les parasites, ils constituent des cibles thérapeutiques d’intérêt contre les Kinétoplastidés.Le projet intègre la synthèse de nouveaux dérivés polyamines spécifiques des parasites, l’évaluation sur des modèles in vitro de leishmaniose et de trypanosomose africaine, ainsi qu’une évaluation sur trypanothione réductase. La mise au point d’une méthode de quantification du transport de polyamine a également été initiée. Cinquante-quatre composés, répartis en trois séries chimiques, ont été synthétisés et évalués. Un grand nombre d’entre eux présentent des activités antiparasitaires de l’ordre du micromolaire et des évaluations in vivo sont actuellement en cours avec le composé le plus prometteur

Synthèse et évaluation biologique de dérivés polyamines en tant qu’agents antikinétoplastidés

This project is at the interface of chemistry and biology and relies on the expertise of two different teams. This thesis involves the design and development of inhibitors directed against Kinetoplastids. It is urgent to develop new therapeutic strategies to respond to drug resistance and toxicity of currently used drugs against these parasites. Polyamine metabolism and transporter have been demonstrated as essential for parasite growth. Therefore, these systems are potential drug targets for development of antikinetoplastid compounds. We chose to synthesize polyamine derivatives and evaluate their biological activity against Kinetoplatids. Fifty-four compounds, divided into three chemical series, have been synthesized and evaluated. Many have shown a micromolar biological activity in vitro against parasite. In vivo evaluation is foreseen for the most promising derivative.Ce projet d’interface Chimie/Biologie repose sur les expertises complémentaires de deux équipes. Il concerne la conception et le développement d’inhibiteurs dirigés contre les Kinétoplastidés (trypanosomes, leishmanies). Il est en effet urgent de développer de nouvelles stratégies thérapeutiques pour répondre à la chimiorésistance et à la toxicité des médicaments actuellement utilisés contre ces parasites. Le métabolisme et le transport des polyamines étant essentiel chez les parasites, ils constituent des cibles thérapeutiques d’intérêt contre les Kinétoplastidés.Le projet intègre la synthèse de nouveaux dérivés polyamines spécifiques des parasites, l’évaluation sur des modèles in vitro de leishmaniose et de trypanosomose africaine, ainsi qu’une évaluation sur trypanothione réductase. La mise au point d’une méthode de quantification du transport de polyamine a également été initiée. Cinquante-quatre composés, répartis en trois séries chimiques, ont été synthétisés et évalués. Un grand nombre d’entre eux présentent des activités antiparasitaires de l’ordre du micromolaire et des évaluations in vivo sont actuellement en cours avec le composé le plus prometteur

FRET-Based Method for Direct, Real-Time Measurement of DNA Methyltransferase Activity

International audienceDNA methyltransferase activity is associated with a host of diseases, including cancers, where global hypomethylation of the genome, as well as marked changes in local DNA methylation patterns, can be both diagnostic and prognostic for the disease. Despite this, we currently lack a method for directly measuring the activity of the DNA methyltransferases, which would support the development of DNA methyltransferase-targeted therapies. Here, we demonstrate an assay for the direct measurement of methyltransferase activity, in real time. We employ a fluorescent methyltransferase cofactor analogue, which when bound by the enzyme to a labeled target DNA sequence results in fluorescence resonance energy transfer (FRET) between the donor dye (DNA) and the acceptor dye (cofactor). We demonstrate that the method can be used to monitor the activity of DNA MTases in real time and can be applied to screen inhibitors of the DNA methyltransferases. We show this in both bulk phase and single molecule imaging experiments, highlighting the potential application of the assay in screening and biophysical studies of methyltransferase function

Spermine-NBD as fluorescent probe for studies of the polyamine transport system in Leishmania donovani

International audienceThis study describes the synthesis of fluorescent probes as potential substrates for the polyamine transport system (PTS) of Leishmania donovani. A competitive radioassay was used to determine the most efficient probe. We observed that the conjugate spermine-nitrobenzofurazan (Spm-NBD) was able to compete with [3H]-spermidine in L. donovani at a potent IC50 of 60 µM

Spermine-NBD as Fluorescent Probe for Studies of Polyamine Transport System in Leishmania Donovani

This study describes the synthesis of fluorescent probes as potential substrates for the polyamine transport system (PTS) of Leishmania donovani. A competitive radioassay was used to determine the most efficient probe. We observed that the conjugate spermine-nitrobenzofurazan (Spm-NBD) was able to compete with [3H]-spermidine in L. donovani at a relevant IC50 of 60 µM. </p

Site-selective and Re-writable Labeling of DNA through Enzymatic, Reversible and Click Chemistries

Current methods for bioconjugation rely on the introduction of stable linkers that lack the required versatility to perform sequential functionalizations. However, sequential manipulations are an increasing requirement in chemical biology because they can underpin multiple analyses of the same sample to provide a wider understanding of cell behavior. Here, we present a new method to site-selectively write, remove and re-write chemical functionality to a biomolecule, DNA in this case. Our method combines the precision and robustness of methyltransferase-directed labeling with the reversibility of acyl hydrazones and the efficiency of click chemistry. Underpinning the method is a new S-adenosyl-l-methionine derivative to site-selectively label DNA with a bifunctional chemical handle containing an acyl hydrazone-linker and a terminal azide. Functional tags are conjugated via the azide, and can be removed (i.e. un-tagged) when needed at the acyl hydrazone via exchange with hydroxyl amine. The formed hydrazide-labeled DNA is a versatile intermediate that can be either re-written to reset the original chemical handle, or covalently reacted with a permanent tag. This ability to write, tag, un-tag and permanently tag DNA is exploited to sequentially introduce two fluorescent dyes on DNA. Finally, we demonstrate the potential of the method by developing a protocol to sort labeled DNA using magnetic beads, with subsequent amplification of the sorted DNA sample for further analysis. The presented method opens new avenues for site-selective bioconjugation and should underpin integrative approaches in chemical biology where sequential functionalizations of the same sample are required.</p