17 research outputs found

    Synthesis and biological evaluation of novel substituted pyrrolo[1,2-a]quinoxaline derivatives as inhibitors of the human protein kinase CK2

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    Herein we describe the synthesis and properties of substituted phenylaminopyrrolo[1,2-a]quinoxaline-carboxylic acid derivatives as a novel class of potent inhibitors of the human protein kinase CK2. A set of 15 compounds was designed and synthesized using convenient and straightforward synthesis protocols. The compounds were tested for inhibition of human protein kinase CK2, which is a potential drug target for many diseases including inflammatory disorders and cancer. New inhibitors with IC50 in the micro- and sub-micromolar range were identified. The most promising compound, the 4-[(3-chlorophenyl)amino]pyrrolo[1,2-a]quinoxaline-3-carboxylic acid 1c inhibited human CK2 with an IC50 of 49 nM. Our findings indicate that pyrrolo[1,2-a]quinoxalines are a promising starting scaffold for further development and optimization of human protein kinase CK2 inhibitorsFil: Guillon, Jean. Universite de Bordeaux; Francia;Fil: Le Borgne, Marc. Université de Lyon; Francia;Fil: Rimbault, Charlotte. Universite de Bordeaux; Francia;Fil: Moreau, Stéphane. Universite de Bordeaux; Francia;Fil: Savrimoutou, Solène. Universite de Bordeaux; Francia;Fil: Pinaud, Noël. Universite de Bordeaux; Francia;Fil: Baratin, Sophie. Universite de Bordeaux; Francia;Fil: Marchivie, Mathieu. Universite de Bordeaux; Francia;Fil: Roche, Séverine. Universite de Bordeaux; Francia;Fil: Bollacke, Andre. Institut für Pharmazeutische und Medizinische Chemie. Westfälische Wilhelms-Universität Münster; Alemania;Fil: Pecci, Adali. Consejo Nacional de Invest.cientif.y Tecnicas. Oficina de Coordinacion Administrativa Ciudad Universitaria. Instituto de Fisiol., Biol.molecular y Neurociencias; Argentina;Fil: Alvarez, Lautaro Damian. Consejo Nacional de Invest.cientif.y Tecnicas. Oficina de Coordinacion Administrativa Ciudad Universitaria. Unid.microanal.y Met.fisicos En Quim.org.(i); Universidad de Buenos Aires. Facultad de Cs.exactas y Naturales. Departamento de Quimica Organica;Fil: Desplat, Vanessa. Universite de Bordeaux; Francia;Fil: Joachim, Jose. Institut für Pharmazeutische und Medizinische Chemie. Westfälische Wilhelms-Universität Münster; Alemania

    Modulation of PDZ domain-mediated interactions by a directed molecular evolution approach

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    Les interactions protéine-protéine (IPPs), complexes et dynamiques, sont le cœur des réseaux protéiques cellulaires. Au niveau des synapses excitatrices, la densité post-synaptique (PSD) est un exemple typique de réseau protéique dont la structure et la composition à l’échelle nanoscopique détermine la fonction cellulaire. Ainsi, la régulation dynamique de la composition de la PSD et des mouvements des récepteurs au glutamate dans ou hors de la PSD constitue la base des théories moléculaires actuelles sur l’apprentissage et la mémoire. Dans ce contexte, durant ma thèse, j’ai étudié une classe d’IPPs faisant intervenir les domaines PDZ. En effet, durant ces dernières années, de nombreuses études ont démontré l’implication de ces interactions impliquant les domaines PDZ de la famille de PSD95 dans le ciblage synaptique et l’ancrage des récepteurs au glutamate. Cependant, en partie dû au manque d’outils adaptés, les mécanismes moléculaires sous-jacents qui contrôlent de façon dynamique leur rétention à la synapse restent mal compris. Dans le but d’étudier ces interactions impliquant des domaines PDZ, j’ai développé plusieurs stratégies de sélection par phage display basées sur l’utilisation du dixième domaine de type III de la fibronectine humaine (10Fn3) dans le but de cibler les motifs d’interaction aux domaines PDZ des récepteurs (Stargazin pour les rAMPA et GluN2A pour les rNMDA) ou les domaines PDZ eux-mêmes. En utilisant une approche multidisciplinaire, mes objectifs principaux ont été de concevoir de petits anticorps synthétiques qui nous permettront de rompre ou de stabiliser spécifiquement ces complexes protéiques, ainsi que d’observer les interactions endogènes.Complex and dynamic protein-protein interactions are the core of protein-based networks in cells. At excitatory synapses, the postsynaptic density (PSD) is a typical example of protein-based network whose nanoscale structure and composition determines the cellular function. For instance, the dynamic regulation of PSD composition and glutamate receptors movements into or out of the PSD are the base of current molecular theories of learning and memory. In this context, during my PhD, I focused on a class of protein-protein interactions mediated by PDZ domains. Indeed, over the last decade, numerous studies have shown the critical implication of PDZ domain-mediated interactions from the PSD95 scaffolding protein family in the synaptic targeting and anchoring of glutamate receptors. However, in part due to the lack of adapted tools, the molecular mechanisms that dynamically govern their respective synaptic retention remain poorly understood. In order to investigate these PDZ domain-mediated interactions, I developed several selection strategies by phage-display based on the fibronectin type III (FN3) scaffold in order to either target the PDZ domain-binding motifs of the receptors complexes (e.g., stargazin for AMPARs and GluN2A for NMDARs) or the PDZ domains themselves. Using a multidisciplinary approach, my main objectives were to engineer small synthetic antibodies that will allow us to acutely and specifically disrupt or stabilize these protein complexes, as well as monitor endogenous interactions

    Modulation des interactions impliquant les domaines PDZ par une approche d’évolution dirigée

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    Complex and dynamic protein-protein interactions are the core of protein-based networks in cells. At excitatory synapses, the postsynaptic density (PSD) is a typical example of protein-based network whose nanoscale structure and composition determines the cellular function. For instance, the dynamic regulation of PSD composition and glutamate receptors movements into or out of the PSD are the base of current molecular theories of learning and memory. In this context, during my PhD, I focused on a class of protein-protein interactions mediated by PDZ domains. Indeed, over the last decade, numerous studies have shown the critical implication of PDZ domain-mediated interactions from the PSD95 scaffolding protein family in the synaptic targeting and anchoring of glutamate receptors. However, in part due to the lack of adapted tools, the molecular mechanisms that dynamically govern their respective synaptic retention remain poorly understood. In order to investigate these PDZ domain-mediated interactions, I developed several selection strategies by phage-display based on the fibronectin type III (FN3) scaffold in order to either target the PDZ domain-binding motifs of the receptors complexes (e.g., stargazin for AMPARs and GluN2A for NMDARs) or the PDZ domains themselves. Using a multidisciplinary approach, my main objectives were to engineer small synthetic antibodies that will allow us to acutely and specifically disrupt or stabilize these protein complexes, as well as monitor endogenous interactions.Les interactions protéine-protéine (IPPs), complexes et dynamiques, sont le cœur des réseaux protéiques cellulaires. Au niveau des synapses excitatrices, la densité post-synaptique (PSD) est un exemple typique de réseau protéique dont la structure et la composition à l’échelle nanoscopique détermine la fonction cellulaire. Ainsi, la régulation dynamique de la composition de la PSD et des mouvements des récepteurs au glutamate dans ou hors de la PSD constitue la base des théories moléculaires actuelles sur l’apprentissage et la mémoire. Dans ce contexte, durant ma thèse, j’ai étudié une classe d’IPPs faisant intervenir les domaines PDZ. En effet, durant ces dernières années, de nombreuses études ont démontré l’implication de ces interactions impliquant les domaines PDZ de la famille de PSD95 dans le ciblage synaptique et l’ancrage des récepteurs au glutamate. Cependant, en partie dû au manque d’outils adaptés, les mécanismes moléculaires sous-jacents qui contrôlent de façon dynamique leur rétention à la synapse restent mal compris. Dans le but d’étudier ces interactions impliquant des domaines PDZ, j’ai développé plusieurs stratégies de sélection par phage display basées sur l’utilisation du dixième domaine de type III de la fibronectine humaine (10Fn3) dans le but de cibler les motifs d’interaction aux domaines PDZ des récepteurs (Stargazin pour les rAMPA et GluN2A pour les rNMDA) ou les domaines PDZ eux-mêmes. En utilisant une approche multidisciplinaire, mes objectifs principaux ont été de concevoir de petits anticorps synthétiques qui nous permettront de rompre ou de stabiliser spécifiquement ces complexes protéiques, ainsi que d’observer les interactions endogènes

    Diversity and plant growth promoting ability of rice root-associated bacteria in Burkina-Faso and cross-comparison with metabarcoding data.

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    Plant-associated bacteria are essential partners in plant health and development. In addition to taking advantage of the rapid advances recently achieved in high-throughput sequencing approaches, studies on plant-microbiome interactions require experiments with culturable bacteria. A study on the rice root microbiome was recently initiated in Burkina Faso. As a follow up, the aim of the present study was to develop a collection of corresponding rice root-associated bacteria covering maximum diversity, to assess the diversity of the obtained isolates based on the culture medium used, and to describe the taxonomy, phenotype and abundance of selected isolates in the rice microbiome. More than 3,000 isolates were obtained using five culture media (TSA, NGN, NFb, PCAT, Baz). The 16S rRNA fragment sequencing of 1,013 selected isolates showed that our working collection covered four bacterial phyla (Proteobacteria, Firmicutes, Actinobacteria and Bacteroidetes) and represented 33% of the previously described diversity of the rice root microbiome at the order level. Phenotypic in vitro analysis of the plant growth promoting capacity of the isolates revealed an overall ammonium production and auxin biosynthesis capacity, while siderophore production and phosphate solubilisation were enriched in Burkholderia, Ralstonia, Acinetobacter and Pseudomonas species. Of 45 representative isolates screened for growth promotion on seedlings of two rice cultivars, five showed an ability to improve the growth of both cultivars, while five others were effective on only one cultivar. The best results were obtained with Pseudomonas taiwanensis ABIP 2315 and Azorhizobium caulinodans ABIP 1219, which increased seedling growth by 158% and 47%, respectively. Among the 14 best performing isolates, eight appeared to be abundant in the rice root microbiome dataset from previous study. The findings of this research contribute to the in vitro and in planta PGP capacities description of rice root-associated bacteria and their potential importance for plants by providing, for the first time, insight into their prevalence in the rice root microbiome

    A comparative study of the performance of <i>E. coli</i> and <i>K. phaffii</i> for expressing α-cobratoxin

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    Three-finger toxins (3FTxs) have traditionally been obtained via venom fractionation of whole venoms from snakes. This method often yields functional toxins, but it can be difficult to obtain pure isoforms, as it is challenging to separate the many different toxins with similar physicochemical properties that generally exist in many venoms. This issue can be circumvented via the use of recombinant expression. However, achieving the correct disulfide bond formation in recombinant toxins is challenging and requires extensive optimization of expression and purification methods to enhance stability and functionality. In this study, we investigated the expression of α-cobratoxin, a well-characterized 3FTx from the monocled cobra (Naja kaouthia), in three different expression systems, namely Escherichia coli BL21 (DE3) cells with the csCyDisCo plasmid, Escherichia coli SHuffle cells, and Komagataella phaffii (formerly known as Pichia pastoris). While none of the tested systems yielded α-cobratoxin identical to the variant isolated from whole venom, the His6-tagged α-cobratoxin expressed in K. phaffii exhibited a comparable secondary structure according to circular dichroism spectra and similar binding properties to the α7 subunit of the nicotinic acetylcholine receptor. The findings presented here illustrate the advantages and limitations of the different expression systems and can help guide researchers who wish to express 3FTxs

    tert-Butyl N-{[5-(5-oxohexanamido)pyridin-2-yl]amino}carbamate

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    In the crystal structure of the title compound, C16H24N4O4, molecules are linked by N&#8212;H...O hydrogen bonds between the carbonyl groups of the carbamoyl and amido functional groups and the amino groups, and by N&#8212;H...N hydrogen bonds between the amino group and the pyridine ring, forming two-dimensional networks parallel to the ab plane

    Strategies for Heterologous Expression, Synthesis, and Purification of Animal Venom Toxins

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    Animal venoms are complex mixtures containing peptides and proteins known as toxins, which are responsible for the deleterious effect of envenomations. Across the animal Kingdom, toxin diversity is enormous, and the ability to understand the biochemical mechanisms governing toxicity is not only relevant for the development of better envenomation therapies, but also for exploiting toxin bioactivities for therapeutic or biotechnological purposes. Most of toxinology research has relied on obtaining the toxins from crude venoms; however, some toxins are difficult to obtain because the venomous animal is endangered, does not thrive in captivity, produces only a small amount of venom, is difficult to milk, or only produces low amounts of the toxin of interest. Heterologous expression of toxins enables the production of sufficient amounts to unlock the biotechnological potential of these bioactive proteins. Moreover, heterologous expression ensures homogeneity, avoids cross-contamination with other venom components, and circumvents the use of crude venom. Heterologous expression is also not only restricted to natural toxins, but allows for the design of toxins with special properties or can take advantage of the increasing amount of transcriptomics and genomics data, enabling the expression of dormant toxin genes. The main challenge when producing toxins is obtaining properly folded proteins with a correct disulfide pattern that ensures the activity of the toxin of interest. This review presents the strategies that can be used to express toxins in bacteria, yeast, insect cells, or mammalian cells, as well as synthetic approaches that do not involve cells, such as cell-free biosynthesis and peptide synthesis. This is accompanied by an overview of the main advantages and drawbacks of these different systems for producing toxins, as well as a discussion of the biosafety considerations that need to be made when working with highly bioactive proteins
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