Nanoparticules lipidiques pH-sensibles basées sur une bascule moléculaire pour la délivrance intracytoplasmique de siRNA

La délivrance intracytoplasmique de petites molécules hydrophiles et de gènes (ADN, ARN) est un défi majeur pour l’industrie pharmaceutique, puisque ces composés sont incapables de franchir les membranes biologiques par eux-mêmes. L’utilisation de nanovecteurs lipidiques permet de surmonter les étapes d’instabilité sanguine du gène thérapeutique, de pénétration cellulaire et d’échappement endosomal. Nous reportons dans cette thèse l’élaboration de nouveaux vecteurs lipidiques pH-sensibles, basés sur une bascule moléculaire capable de changer de conformation et déstabiliser le nanovecteur après protonation à pH acide, favorisant ainsi l’échappement endosomal du fragile contenu thérapeutique. Ce mécanisme de pH-sensibilité est non reporté dans la littérature jusqu’alors. Dans un premier temps, l’élaboration de lipides bascules pH-sensibles non-cationiques destinés à la délivrance liposomale de principes actifs hydrophiles est reportée. Ce premier travail introduit les lipides bascules, valide l’implication de la bascule moléculaire pH-sensible et apporte une première preuve de concept in vitro de faisabilité. Dans un second temps est introduit l’utilisation de nouveaux lipides bascules cationiques pH-sensibles pour la thérapie génique (délivrance in vitro et in vivo de siRNA), validant encore une fois l’implication de la bascule moléculaire dans l’efficacité de délivrance intracytoplasmique des siRNA. A l’issue de cette thèse sont identifiés deux lipides bascules (2 et CSL3) capables d’être introduits dans des nanoparticules lipidiques pour la délivrance de drogues et de gènes respectivement. De telles formulations permettraient la délivrance intracytoplasmique de composés hydrophiles thérapeutiques (drogues, gènes) pour le traitement du cancer ou pour des applications d’édition génomique.Intracytoplasmic delivery of small hydrophilic molecules and genes (DNA, RNA) is a major challenge for the pharmaceutical industry, since these compounds are unable to cross biological membranes by themselves. Use of lipid nanocarriers enables overcoming the stages of blood instability of the therapeutic gene, cellular penetration, and endosomal escape. In this thesis, we report the development of new pH-sensitive lipid carriers, based on a molecular switch capable of changing its conformation upon protonation and destabilizing the nanocarrier, thus favoring endosomal escape of the therapeutic content. This pH-sensitivity mechanism has not been reported in the literature to date. Firstly, we report the elaboration of non-cationic pH-sensitive switchable lipids for liposomal delivery of hydrophilic active ingredients. This initial work introduces switchable lipids, validates the involvement of the pH-sensitive molecular switch, and provides early evidence of in vitro concept feasibility. Secondly, we present the use of pH-sensitive cationic switchable lipids for gene therapy (siRNA delivery in vitro and in vivo), again validating the involvement of the molecular switch in the effectiveness of intracytoplasmic delivery of siRNA. The two lead compounds identified during this thesis (2 and CSL3) can be included into lipid nanoparticles for drug and gene delivery, respectively. Such formulations allow intracytoplasmic delivery of therapeutic hydrophilic compounds (drugs, genes) and could be used to treat diseases such as cancer or for genome editing applications

La décroissance appliquée à la musique des jeux vidéo

Mon mémoire portera sur la musique des jeux vidéo dans le cadre d’un effondrement systémique ou d’une autre forme de décroissance de l’économie. C’est dans ce cadre que j’exposerai mes idées quant aux différentes formes que pourraient prendre l’industrie vidéo-ludique et sa musique dans un contexte qui semble difficile à envisager. Quelles sont les sources de créativité dans un monde où les indicateurs liés aux sociétés modernes auront vraisemblablement changé du tout au tout ? Comment envisager que le jeu vidéo puisse rester attrayant, intéressant et passionnant dans un modèle économique décroissant ? Ce sont les problématiques auxquelles je vais tenter d’apporter des réponses ici.My thesis consists on confronting video-game music with a case of systemic collapse or economical degrowth. Regarding these environmental and societal problematics, I’ll suggest ideas concerning the way we could look at the future of video-games, by thinking on the form the medium and its music could take in a context that we often fail to contemplate. How can creativity still emerge in a world where common society’s indicators will most likely be totally different from what they are today? Could we find ways for video-games and video-game music to be as interesting and inspiring as it is today in a context of economical degrowth? Those are problematics that I’ll specifically address in my thesis, by trying to find an approach and potential answers that suits a realistic future state of the world

Investigation of the molecular signatures of selection on ATP synthase genes in the marine bivalve Limecola balthica

We used transcriptomic sequence data to describe patterns of divergence and selection across different populations of a marine bivalve (Limecola balthica). Our analyses focused on a nuclear gene (atp5c1) that was previously detected in an FST scan as highly structured among populations separated by the Finistère Peninsula in France. This gene encodes the gamma subunit of the FO/F1 ATP synthase, a multi-protein complex that is paramount to cellular respiration and energy production. Analysis of non-synonymous to synonymous mutation ratios revealed that 65% of the gene is highly conserved (dN/dS ≤ 0.1, min = 0), while 6% of the gene is likely under positive selection (dN/dS ≥ 1, max = 2.03). All replacement mutations are clustered on a 46 residues portion of the protein, within an inter-peptide interaction zone. Comparative genomics suggests that these mutations are evolutionarily stable, and we hypothesize that they are involved in inter-population genetic incompatibilities with other subunits of the ATP synthase complex. The protein stability of the gamma subunit conferred by southern variants was inferred to be higher under warmer temperatures, suggesting that environmental conditions may contribute to the strength of genetic barriers in L. balthica

The use of DNA barcoding to monitor the marine mammal biodiversity along the French Atlantic coast

International audienceIn the last ten years, 14 species of cetaceans and five species of pinnipeds stranded along the Atlantic coast of Brittany in the North West of France. All species included, an average of 150 animals strand each year in this area. Based on reports from the stranding network operating along this coast, the most common stranding events comprise six cetacean species (Delphinus delphis, Tursiops truncatus, Stenella coeruleoalba, Globicephala melas, Grampus griseus, Phocoena phocoena) and one pinniped species (Halichoerus grypus). Rare stranding events include deep-diving or exotic species, such as arctic seals. In this study, our aim was to determine the potential contribution of DNA barcoding to the monitoring of marine mammal biodiversity as performed by the stranding network. We sequenced more than 500 bp of the 5' end of the mitochondrial cox1 gene of 89 animals of 15 different species (12 cetaceans, and three pinnipeds). Except for members of the Delphininae, all species were unambiguously discriminated on the basis of their cox1 sequences. We then applied DNA barcoding to identify some "undetermined" samples. With again the exception of the Delphininae, this was successful using the BOLD identification engine. For samples of the Delphininae, we sequenced a portion of the mitochondrial control region (MCR), and using a non-metric multidimentional scaling plot and posterior probability calculations we were able to determine putatively each species. We then showed, in the case of the harbour porpoise, that cox1 polymorphisms, although being lower than MCR ones, could also be used to assess intraspecific variability. All these results show that the use of DNA barcoding in conjunction with a stranding network could clearly increase the accuracy of the monitoring of marine mammal biodiversity

Computational protein design to accelerate the conception of fine-tuned biocatalysts

The remarkable properties of enzymes (high catalytic efficiency, regio- and stereo-selectivity) have been recognized and largely exploited in biocatalysis. Accordingly, enzyme-driven processes should play an increasing role in the next decades, potentially substituting chemical processes and contributing to the raise of bioeconomy. However, to foresee a viable future to biocatalysis, advances in R&D are required to accelerate the delivery of fine-tuned enzymes displaying high chemical specificity on non-cognate substrates, high efficiency and better stability in reaction conditions. To this end, structure-based Computational Protein Design (CPD) is a promising strategy to fully rationalize and speed-up the conception of new enzymes while reducing associated human and financial costs. By combining physico-chemical models governing relations between protein amino-acid composition and their 3D structure with optimization algorithms, CPD seeks to identify sequences that fold into a given 3D-scaffold and possess the targeted biochemical properties. Starting from a huge search space, the protein sequence-conformation space, this in silico pre-screening aims to considerably narrow down the number of mutants tested at experimental level while substantially increasing the chances of reaching the desired enzyme. While CPD is still a very young and rapidly evolving field, success stories of computationally designed proteins highlight future prospects of this field. Nonetheless, despite landmark achievements, the success rate of the current computational approaches remains low, and designed enzymes are often way less efficient than their natural counterparts. Therefore, several limitations of the CPD still need to be addressed to improve its efficiency, predictability and reliability. Herein, we present our methodological advances in the CPD field that enabled overcoming technological bottlenecks and hence propose innovative CPD methods to explore large sequence-conformation spaces while providing more accuracy and robustness than classical approaches. Our CPD methods speed-up search across vast sequence-conformation spaces by several orders of magnitude, find the minimum energy enzyme design and generate exhaustive lists of near-optimal sequences, defining small mutant libraries. These new methods, in rupture with classical approaches are based on efficient algorithms issued from recent research in artificial intelligence. The performance and accuracy of our computer-aided enzyme design methods have been evaluated and validated on various types of protein design problems. This work was partially funded by INRA/Région Midi-Pyrénées, IDEX Toulouse, Agreenskills and the French National Research Agency (PROTICAD, ANR-12-MONU-0015-03)

Thermoresponsive Polysarcosine-Based Nanoparticles

Polysarcosine holds great promise as an alternative to poly(ethylene glycol) for use within both biomedical and non-biomedical applications owing to its hydrophilicity and non-cytoxicity, amongst other features. The grafting of a limited quantity of (N-(2-hydroxypropyl)methacrylamide) to polysarcosine, for instance 3.5% of the total copolymer in terms of the number of repeat units, has a profound effect on the properties of the copolymer formed; polymer self-assembly to yield thermoreponsive nanoparticles can now be realised. Such nanoparticles are non-cytotoxic against a range of human breast cancer cell lines, able to withhold the therapeutic compound doxorubicin, and allow pronounced doxorubicin release in response to subtle thermal stimulation. This research informs of how the straightforward modification of polysarcosine with a nominal molar amount of poly(N-(2-hydroxypropyl)methacrylamide) can yield stimuli-responsive polymers that are suitable for use within controlled release applications

Sea surface temperature, rather than land mass or geographic distance, may drive genetic differentiation in a species complex of highly dispersive seabirds

Seabirds, particularly Procellariiformes, are highly mobile organisms with a great capacity for long dispersal, though simultaneously showing high philopatry, two conflicting life-history traits that may lead to contrasted patterns of genetic population structure. Landmasses were suggested to explain differentiation patterns observed in seabirds, but philopatry, isolation by distance, segregation between breeding and nonbreeding zones, and oceanographic conditions (sea surface temperatures) may also contribute to differentiation patterns. To our knowledge, no study has simultaneously contrasted the multiple factors contributing to the diversification of seabird species, especially in the gray zone of speciation. We conducted a multilocus phylogeographic study on a widespread seabird species complex, the little shearwater complex, showing highly homogeneous morphology, which led to considerable taxonomic debate. We sequenced three mitochondrial and six nuclear markers on all extant populations from the Atlantic (lherminieri) and Indian Oceans (bailloni), that is, five nominal lineages from 13 populations, along with one population from the eastern Pacific Ocean (representing the dichrous lineage). We found sharp differentiation among populations separated by the African continent with both mitochondrial and nuclear markers, while only mitochondrial markers allowed characterizing the five nominal lineages. No differentiation could be detected within these five lineages, questioning the strong level of philopatry showed by these shearwaters. Finally, we propose that Atlantic populations likely originated from the Indian Ocean. Within the Atlantic, a stepping-stone process accounts for the current distribution. Based on our divergence time estimates, we suggest that the observed pattern of differentiation mostly resulted from historical and current variation in sea surface temperatures

Multiple invasions in urbanized landscapes: interactions between the invasive garden ant Lasius neglectus and Japanese knotweeds (Fallopia spp.)

International audienceUrbanized landscapes are the theater of multiple simultaneous biological invasions likely to affect spread dynamics when co-occurring introduced species interact with each other. Interactions between widespread invaders call for particular atten- tion because they are likely to be common and because non-additive outcomes of such associations might induce negative consequences (e.g., enhanced population growth increasing impacts or resistance to control). We explored the invasions of two widespread invasive taxa: the Japanese knotweed species complex Fallopia spp. and the invasive garden ant Lasius neglectus, in the urban area of Lyon (France). First, we investigated landscape habitat preferences as well as co-occurrence rates of the two species. We showed that Fallopia spp. and L. neglectus had broadly overlapping environmental preferences (measured by seven landscape variables), but their landscape co-occurrence pattern was random, indicating independent spread and non-obligatory association. Second, as Fallopia spp. produce extra-floral nectar, we estimated the amount of nectar L. neglectus used under field conditions without ant competitors. We estimated that L. neglectus collected 150–321 kg of nectar in the month of April (when nectar production is peaking) in a 1162 m2 knotweed patch, an amount likely to boost ant population growth. Finally, at six patches of Fallopia spp. surveyed, herbivory levels were low (1–6% loss of leaf surface area) but no relationship between ant abundance (native and invasive) and loss of leaf surface was found. Co-occurrences of Fallopia spp. and L. neglectus are likely to become more common as both taxa colonize landscapes, which could favor the spread and invasion success of the invasive ant

Strain-Promoted Thiol-Mediated Cellular Uptake of Giant Substrates: Liposomes and Polymersomes

Simple cyclic disulfides under high tension mediate the uptake of giant substrates, that is, liposomes and polymersomes with diameters of up to 400 nm, into HeLa Kyoto cells. To place them at the surface of the vesicles, the strained disulfides were attached to the head-group of cationic amphiphiles. Bell-shaped dose response curves revealed self-activation of the strained amphiphiles by self-assembly into microdomains at low concentrations and self-inhibition by micelle formation at high concentrations. Poor colocalization of internalized vesicles with endosomes, lysosomes, and mitochondria indicate substantial release into the cytosol. The increasing activity with disulfide ring tension, inhibition with Ellman`s reagent, and inactivity of maleimide and guanidinium controls outline a distinct mode of action that deserves further investigation and is promising for practical applications

Sex bias in biopsy samples collected from free-ranging dolphins

Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here by permission of Springer for personal use, not for redistribution. The definitive version was published in European Journal of Wildlife Research 56 (2010): 151-158, doi:10.1007/s10344-009-0299-7.Biological samples of free-ranging dolphins are increasingly used to gain information on population structure and ecology. In small cetaceans, the gender of individuals usually cannot be determined at sea, and population sex ratio has to be inferred indirectly. We used molecular sexing to determine the gender of 340 biopsy samples of bottlenose dolphins, Tursiops truncatus, spotted dolphins, Stenella frontalis, and common dolphins, Delphinus delphis, collected around the Azores and Madeira. Sex ratio was globally skewed in favor of males, and differed between species and archipelagos. Skew was probably influenced by the selectivity of biopsy collectors and seasonal or year-round predominance of males in natural populations. Skew was also influenced by sampling duration and intensity. In the Azores, when several samples were successively collected within the same group, the proportion of female samples decreased as a function of sample order. This trend indicated a tendency for females to increasingly avoid the boat while samples were being collected. It showed that males and females reacted differently to the perturbation caused by the biopsy sampling process (i.e. sample collection and driving style).Portuguese Foundation for Science and Technology (FCT) and the FEDER program for funding the CETAMARH (POCTI/BSE/38991/01) and the GOLFINICHO (POCI/BIA-BDE/61009/2004) projects, S.Q.'s post-doctoral grants (IMAR/FCT- PDOC-006/2001-MoleGen and SFRH/BPD/19680/2004), M.A.S.'s doctoral (SFRH/BD/8609/2002) and post-doctoral (SFRH/BPD/29841/2006) grants, S.M.'s investigation assistant grant (CETAMARHII/POCTI/BSE/38991/2001) and I.C.'s investigation assistant grants (IMAR/FCT/GOLFINICHO/001/2005 and IMAR/FCT/GOLFINICHO/004/2006). FCT for its pluri-annual funding to Research Unit #531 and the EU funded program Interreg IIIb for funding the MACETUS project (MAC/4.2/M10) as well as R.P. and S.M.’s grants (IMAR/INTERREGIIIb/MACETUS/MAC1/2)