Global ETD Search

41	Taxonomy, phylogeny, and secondary sexual character evolution of diving beetles, focusing on the genus Acilius Bergsten, Johannes January 2005 (has links) <p>Sexual conflict can lead to antagonistic coevolution between the sexes, but empirical examples are few. In this thesis secondary sexual characters in diving beetles are interpreted in the light of sexual conflict theory. Whether the male tarsal suction cups and female dorsal modifications are involved in a coevolutionary arms race is tested in two ways. First eight populations of a species with dimorphic females that varied in frequency of the morphs were investigated and male tarsal characteristics quantified. The frequency of female morphs is shown to be significantly correlated to the average number and size of male tarsal suction cups in the population, a prediction of the arms race hypothesis. Second, the hypothesis is tested in a phylogenetic perspective by optimizing the secondary sexual characters on a phylogeny. A full taxonomic revision of the genus <i>Acilius</i> is presented, including new synonyms, lectotype designations, geographic distributions based on more than five thousand examined museum specimens and the description of a new species from northeastern USA. Specimens of all species (except one possibly extinct that failed to be found in Yunnan, China 2000), were field collected between 2000 and 2003 in Sardinia, Sweden, Russia, Honshu and Hokkaido in Japan, New York, Maryland, California and Alberta. Three genes (CO1, H3 and Wingless) were sequenced from the fresh material as well as scoring a morphological character matrix all of which was used to derive a robust and complete hypothesis of the phylogenetic relationship in the group. The phylogeny was derived using Bayesian phylogenetics with Markov Chain Monte Carlo techniques and received a posterior probability of 0.85. Changes in male and female characters turned out to be perfectly correlated across the phylogeny, providing one of the best empirical examples to date of an antagonistic arms race between the sexes in a group of organisms. Finally, a review of a pitfall to phylogenetic analysis known under the name long-branch attraction (LBA), is provided. The problem is well known theoretically but has been questioned to occur in real data, and LBA has been in the core center of the hard debate between parsimony and likelihood advocates since different inference methods vary in sensitivity to the phenomenon. Most important conclusions from the review are; LBA is very common in real data, and is most often introduced with the inclusion of outgroups that almost always provide long branches, pulling down long terminal ingroup branches towards the root. Therefore it is recommended to always run analyses with and without outgroups. Taxon sampling is very important to avoid the pitfall as well as including different kind of data, especially morphological data, i.e. many LBA-affected conclusions have recently been reached by analyses of few taxa with complete genomes. Long-branch extraction (incl. outgroup exclusion), methodological disconcordance (parsimony vs modelbased), separate partition analyses (morphology vs molecules, codon positions, genes, etc), parametric simulation (incl. random outgroups), and split graphs are available relevant methods for the detection of LBA that should be used in combinations, because none alone is enough to stipulate LBA.</p> Biology antagonistic coevolution arms race sexual conflict diving beetle Dytiscidae Coleoptera taxon sampling long-branch attraction parsimony Bayesian analysis taxonomic revision Biologi Biology Biologi
42	Sexual conflict and male-female coevolution in the fruit fly Friberg, Urban January 2006 (has links) <p>Harmony and cooperation was for long believed to dominate sexual interactions. This view slowly started to change 25 years ago and is today replaced with a view where males and females act based on what is best from a costs-benefits perspective. When sex specific costs and benefits differ, concerning reproductive decision influenced by both sexes, sexual conflict will occur. The basis for discordant reproductive interests between the sexes is that males produce many small gametes, while females’ produce few and large gametes. One result of this difference is that the optimal mating rate differs between the sexes. Males, with their many small sperm, maximize their reproductive output by mating with many females, while females often do best by not mating more frequently than to fertilize their eggs, since mating often entails a cost. Sexual conflict over mating is thus an important factor shaping the interactions between the sexes. In this thesis I study this and related conflicts between the sexes, using mathematical models, fruit flies and comparative methods. Mathematical modelling was used to explore how males and females may coevolve under sexual conflict over mating. This model shows that sexual conflict over mating results in the evolution of costly female mate choice, in terms high resistance to matings, and costly exaggerated male sexual traits, aimed to manipulate females into mating. A key assumption in this model is that males which females find attractive also are more harmful to females. This assumption was tested by housing fruit fly females with either attractive or unattractive males. Females kept with attractive males were courted and mated more, and suffered a 16 percent reduction in lifetime offspring production. In another study I measured genetic variation in two antagonistic male traits used to compete over females; offence - a male’s ability to acquire new mates and supplant stored sperm, and defence - a male’s ability to induce fidelity in his mates and prevent sperm displacement when remating occurs. Independent additive genetic variation and positive selection gradients were found for both these traits, indicating an ongoing arms race between these male antagonistic traits. This arms race also had a negative impact on females, since high values of offence compromised female fitness. Genetic variation in female ability to withstand male harm was also tested for and found, indicating that females evolve counter adaptations to reduce the effect of harmful male traits. Finally, the proposed link between sexual conflict and speciation was tested. Theory suggests that perpetual sexual arms races will cause allopatric populations to evolve along different evolutionary trajectories, resulting in speciation. This theory was tested using comparative methods by contrasting the number of extant species in taxa with high and low opportunity for sexual conflict. The study showed that taxa with high opportunity for sexual conflict, on average, has four times as many species as those with low opportunity, supporting that sexual conflict is a key process in speciation.</p> cryptic male mate choice Drosophila melanogaster female mate choice multiple mating sexual conflict sexually antagonistic coevolution sexual selection speciation sperm competition Biology Biologi
43	Polyandry and the evolution of reproductive divergence in insects Nilsson, Tina January 2004 (has links) Multiple mating by females is common in nature. Yet, the evolution and maintenance of polyandry remains a bit of an evolutionary puzzle. It was my aim in this thesis to reach a greater understanding of this phenomenon as well as to investigate the consequences of polyandry on the evolution of reproductive divergence in insects. In an extensive meta analysis addressing the direct effects of multiple mating on female fitness in insects, I found that insects gain from multiple matings in terms of increased lifetime offspring production. In species without nuptial feeding, increased mating rate leads to decreased female lifespan and my results strongly support the existence of an intermediate optimal female mating rate. However, results from an experimental study where I examined the relationship between female fitness and mating rate in the bean weevil (Callosobruchus maculatus) showed that female fitness was maximized at two alternative mating rates, indicating that some species may exhibit a more complex relationship between the costs and benefits of mating. In the meta analysis on species with nuptial feeding, I found only positive effects of increased mating rate and the puzzle is rather what constrains the actual mating rates of females in these groups. Sexual selection is a very potent driver of rapid evolutionary change in reproductive characters. Most research has focussed on precopulatory sexual selection, but in promiscuous species sexual selection continues after copulation and variance in male fertilization success gives rise to postcopulatory sexual selection. In this thesis I found that three allopatric populations of the red flour beetle (Tribolium castaneum) have diverged in traits related to reproduction. Male genotype affected all aspects of female reproduction, but more interestingly, males and females interacted in their effect on offspring production and reproductive rate, showing that the divergence was due to the evolution of both male and female reproductive traits. When studying postcopulatory sexual selection, sperm competition has been put forward as the main source of variance in fertilization success. The results from a set of double-mating experiments, using the same populations of flour beetles, provided strong evidence that cryptic female choice is also important in generating variance in male fertilization success. I found not only main effects of female genotype on male fertilization success but also male-female interactions which provide more unambiguous evidence for cryptic female choice. Finally, I attempted to uncover which male signals-female receptors are involved in the reproductive divergence observed in the Tribolium populations. In a double-mating experiment I manipulated female perception of two male reproductive signals, copulatory courtship and cuticular hydrocarbons, and the results indicate that, within populations, both signals are sexually selected. However, only male cuticular hydrocarbons seem to be involved in the reproductive divergence between the populations. In conclusion, multiple mating by female insects can be understood solely in terms of direct fitness benefits resulting from increased offspring production. I have shown that postcopulatory sexual selection can lead to rapid divergence in reproductive traits related to mating and that cryptic female choice plays an important role in this divergence. Ecology Bruchidae cryptic female choice multiple mating sexual conflict sexually antagonistic coevolution sexual selection speciation sperm competition Tenebrionidae Ekologi Terrestisk, limnisk och marin ekologi
44	Taxonomy, phylogeny, and secondary sexual character evolution of diving beetles, focusing on the genus Acilius Bergsten, Johannes January 2005 (has links) Sexual conflict can lead to antagonistic coevolution between the sexes, but empirical examples are few. In this thesis secondary sexual characters in diving beetles are interpreted in the light of sexual conflict theory. Whether the male tarsal suction cups and female dorsal modifications are involved in a coevolutionary arms race is tested in two ways. First eight populations of a species with dimorphic females that varied in frequency of the morphs were investigated and male tarsal characteristics quantified. The frequency of female morphs is shown to be significantly correlated to the average number and size of male tarsal suction cups in the population, a prediction of the arms race hypothesis. Second, the hypothesis is tested in a phylogenetic perspective by optimizing the secondary sexual characters on a phylogeny. A full taxonomic revision of the genus Acilius is presented, including new synonyms, lectotype designations, geographic distributions based on more than five thousand examined museum specimens and the description of a new species from northeastern USA. Specimens of all species (except one possibly extinct that failed to be found in Yunnan, China 2000), were field collected between 2000 and 2003 in Sardinia, Sweden, Russia, Honshu and Hokkaido in Japan, New York, Maryland, California and Alberta. Three genes (CO1, H3 and Wingless) were sequenced from the fresh material as well as scoring a morphological character matrix all of which was used to derive a robust and complete hypothesis of the phylogenetic relationship in the group. The phylogeny was derived using Bayesian phylogenetics with Markov Chain Monte Carlo techniques and received a posterior probability of 0.85. Changes in male and female characters turned out to be perfectly correlated across the phylogeny, providing one of the best empirical examples to date of an antagonistic arms race between the sexes in a group of organisms. Finally, a review of a pitfall to phylogenetic analysis known under the name long-branch attraction (LBA), is provided. The problem is well known theoretically but has been questioned to occur in real data, and LBA has been in the core center of the hard debate between parsimony and likelihood advocates since different inference methods vary in sensitivity to the phenomenon. Most important conclusions from the review are; LBA is very common in real data, and is most often introduced with the inclusion of outgroups that almost always provide long branches, pulling down long terminal ingroup branches towards the root. Therefore it is recommended to always run analyses with and without outgroups. Taxon sampling is very important to avoid the pitfall as well as including different kind of data, especially morphological data, i.e. many LBA-affected conclusions have recently been reached by analyses of few taxa with complete genomes. Long-branch extraction (incl. outgroup exclusion), methodological disconcordance (parsimony vs modelbased), separate partition analyses (morphology vs molecules, codon positions, genes, etc), parametric simulation (incl. random outgroups), and split graphs are available relevant methods for the detection of LBA that should be used in combinations, because none alone is enough to stipulate LBA. Biology antagonistic coevolution arms race sexual conflict diving beetle Dytiscidae Coleoptera taxon sampling long-branch attraction parsimony Bayesian analysis taxonomic revision Biologi Biology Biologi
45	Sexual conflict and male-female coevolution in the fruit fly Friberg, Urban January 2006 (has links) Harmony and cooperation was for long believed to dominate sexual interactions. This view slowly started to change 25 years ago and is today replaced with a view where males and females act based on what is best from a costs-benefits perspective. When sex specific costs and benefits differ, concerning reproductive decision influenced by both sexes, sexual conflict will occur. The basis for discordant reproductive interests between the sexes is that males produce many small gametes, while females’ produce few and large gametes. One result of this difference is that the optimal mating rate differs between the sexes. Males, with their many small sperm, maximize their reproductive output by mating with many females, while females often do best by not mating more frequently than to fertilize their eggs, since mating often entails a cost. Sexual conflict over mating is thus an important factor shaping the interactions between the sexes. In this thesis I study this and related conflicts between the sexes, using mathematical models, fruit flies and comparative methods. Mathematical modelling was used to explore how males and females may coevolve under sexual conflict over mating. This model shows that sexual conflict over mating results in the evolution of costly female mate choice, in terms high resistance to matings, and costly exaggerated male sexual traits, aimed to manipulate females into mating. A key assumption in this model is that males which females find attractive also are more harmful to females. This assumption was tested by housing fruit fly females with either attractive or unattractive males. Females kept with attractive males were courted and mated more, and suffered a 16 percent reduction in lifetime offspring production. In another study I measured genetic variation in two antagonistic male traits used to compete over females; offence - a male’s ability to acquire new mates and supplant stored sperm, and defence - a male’s ability to induce fidelity in his mates and prevent sperm displacement when remating occurs. Independent additive genetic variation and positive selection gradients were found for both these traits, indicating an ongoing arms race between these male antagonistic traits. This arms race also had a negative impact on females, since high values of offence compromised female fitness. Genetic variation in female ability to withstand male harm was also tested for and found, indicating that females evolve counter adaptations to reduce the effect of harmful male traits. Finally, the proposed link between sexual conflict and speciation was tested. Theory suggests that perpetual sexual arms races will cause allopatric populations to evolve along different evolutionary trajectories, resulting in speciation. This theory was tested using comparative methods by contrasting the number of extant species in taxa with high and low opportunity for sexual conflict. The study showed that taxa with high opportunity for sexual conflict, on average, has four times as many species as those with low opportunity, supporting that sexual conflict is a key process in speciation. cryptic male mate choice Drosophila melanogaster female mate choice multiple mating sexual conflict sexually antagonistic coevolution sexual selection speciation sperm competition Biology Biologi
46	Design And Development Of A Mechanically Adjustable Linear Torsion Spring Using Cams Kilic, Mehmet 01 September 2009 (has links) (PDF) Linear springs with variable stiffnesses find some key roles in robotic applications. They are implemented into robotic devices for two main reasons, to increase energy efficiency of walking-running robots and prosthesis, and to get safe human-robot interaction at industrial robots. Being inspired from the human actuation system, a mathematical method to get mechanically adjustable linear springs is noted in the literature / antagonistically working two quadratic springs method. But the proposed solution requires two non-linear springs with quadratic spring characteristics and they are not readily available. Several solutions have been noted in the literature for the acquisition of such non-linear springs. At this thesis work, the solution is realized with a string wrapping around cam mechanism. Two different prototypes were designed and constructed and the second one was physically tested to validate the linear spring behavior. The results displayed good linear spring characteristics with different levels of adjustable spring stiffness. Beside the antagonistically working two quadratic springs method, three novel methods to get mechanically adjustable linear springs are introduced at this thesis. They are based on using hanging weights, an exponential characteristic spring and a linear translation spring respectively. The real prototypes were not manufactured but sample designs using string wrapping around cam mechanisms are made.
47	Meloidogyne exigua: distribuição espacial, nível de infestação, mortalidade de seringueiras e controle com plantas antagonistas Gontijo, Luciana Nunes 18 February 2017 (has links) A infestação de áreas com Meloidogyne exigua é um dos principais fatores limitantes ao desenvolvimento da heveicultura brasileira. Estudos anteriores demonstraram que o nematoide afeta o crescimento da seringueira, reduzindo o desenvolvimento de árvores que estão em fase produtiva podendo comprometer até mesmo a sua sobrevivência. Nesse contexto, o objetivo do presente estudo foi avaliar a distribuição espacial e nível populacional de M. exigua em um seringal e seu controle com plantas antagonistas. Para tanto, foram montados dois experimentos. O primeiro avaliou a distribuição espacial e o nível populacional do nematoide de galha em um plantio comercial de seringueira no Triângulo Mineiro, Minas Gerais. Constatou-se que o nível populacional de M. exigua, na área estudada, concentrou-se em focos elípticos – reboleiras – e sua distribuição espacial era do tipo agregada. O segundo experimento avaliou o efeito das plantas antagonistas Arachis repens, Brassica juncea, Brassica napus, Crotalaria spectabilis, Tagetes sp. consorciadas com mudas de seringueira no controle de Meloidogyne exigua. As plantas Arachis repens, Brassica juncea, Brassica napus e Tagetes sp. demonstraram efeito antagônico sobre a população do nematoide. Os resultados obtidos evidenciam a importância do manejo para expansão da heveicultura brasileira. / The infestation of nematodes of the genus Meloidogyne is one of the main limiting factors for the expansion of Brazilian rubber tree plantations. Previous studies have shown that this root-knot nematode affects growth of the rubber tree, thus reducing the development of trees in the production phase and even jeopardizes its survival. In this context, the objective of this study was to evaluate the spatial distribution of Meloidogyne exigua in a rubber tree plantation and its control with antagonistic plants. In order to perform this, two experiments were done. The first one evaluated the population density of the root-knot nematode in a commercial rubber tree plantation in Triângulo Mineiro, Minas Gerais. The population density of M. exigua, in the studied area, was concentrated in elliptic foci with a clustered spatial distribution. The second experiment evaluated the effect of the antagonistic plants Arachis repens, Brassica juncea, Brassica napus, Crotalaria spectabilis, and Tagetes sp. on the management of M. exigua in rubber tree seedlings. Both Brassica juncea and Arachis repens showed antagonistic effect on nematode population. The results obtained highlight the importance of proper nematode management for the expansion of Brazilian rubber tree plantations. / Dissertação (Mestrado) CNPQ::CIENCIAS AGRARIAS::AGRONOMIA Agronomia Meloidogyne exigua Seringueira - Doenças e pragas Hevea brasiliensis Antagonismo Nematoide de galha Controle Geopopulacional Rubber tree Antagonistic plants Root-knot nematode Control Population density.
48	Détection de processus sexuellement antagonistes dans le génome humain / Detection of sexually antagonistic processes in the human genome Lucotte, Elise 23 November 2015 (has links) Chez les espèces sexuées, une sélection sexuellement antagoniste (SA) peut agir si les deux sexes ont des optimums en fitness différents pour un même trait. De plus, si l'architecture génétique de ce trait est partagée entre les sexes, un conflit sexuel intralocus (IASC) peut se produire, menant à l'évolution d'un dimorphisme sexuel. Un modèle de génétique des populations classique prédit que le chromosome X offre un environnement plus favorable à l'accumulation de locus sous sélection SA en comparaison aux autosomes. Nous nous sommes dans un premier temps intéressée à la détection d'une signature d'IASC dans le génome humain, c'est-à-dire des différences de fréquences alléliques entre les sexes. En effectuant un balayage du génome, nous avons mis en évidence un enrichissement en locus montrant une signature d'IASC sur le chromosome X en comparaison aux autosomes. Un mécanisme possible à l'origine des différences de fréquences alléliques entre les sexes dans une population est une distorsion de transmission sexe-spécifique. Dans un second temps, nous avons donc mis au point une méthode de détection de locus pour lesquels les parents transmettent préférentiellement un allèle à leurs fils, et un autre allèle à leurs filles, en utilisant une base de données de séquençage de trios parents-enfant. Nos résultats indiquent que des processus de distorsion de transmission sexe-spécifique seraient à l'origine d'une grande partie des différences de fréquences alléliques entre les sexes observées chez les enfants. Cela suggère que des processus sexuellement antagonistes agissant sur la survie pourraient avoir lieu entre la production des gamètes et la naissance chez l'Homme. / Sexually Antagonistic (SA) selection can occur when, within a species, the two sexes have different fitness optima for a trait. If a trait under SA selection is encoded by the same set of genes in the two sexes, an Intralocus Sexual Conflict (IASC) can arise, leading to the evolution of sexual dimorphism. A classical theoretical model predicts that the X chromosome should be a hotspot for the accumulation of loci under IASC, as compared to the autosomes. In this dissertation, we first aimed at detecting differences in allelic frequencies between males and females, a signature of IASC, in the human genome using a genome scan. We show that loci exhibiting signatures of ongoing IASC are preferentially located on the X chromosome as compared to autosomes. Moreover, they are enriched in genes involved in the determination of traits known to be sexually dimorphic in humans, including reproduction, metabolism and immune system, supporting an implication of sexually antagonistic selection in the evolution of sexual dimorphisms in humans. One possible mechanism leading to differences in allelic frequencies between the sexes is a sex-specific transmission distortion. Therefore, we aimed at detecting loci for which parents preferentially transmit one allele to their sons and another allele to their daughters in a sequencing dataset containing trios (parents-child). We found that sex-specific transmission distortions are at the origin of a large proportion of the differences in allelic frequencies between the sexes observed in children. This suggests that sexually antagonistic processes on survival may occur between the production of gametes and birth in humans. Sélection sexuellement antagoniste Conflit sexuel intralocus Dimorphisme sexuel Balayage du génome Chromosome X Sexually antagonistic selection Genome scan 576.58
49	Approche évolutionniste de la préférence homosexuelle masculine / Male homosexual preference and evolution Barthes, Julien 11 December 2014 (has links) La préférence homosexuelle masculine (PHM) est considérée comme un paradoxe darwinien car c'est un trait partiellement héritable, induisant une baisse de succès reproducteur, ayant une fréquence (en Occident) entre 2 et 6 % et qui semble propre à l'espèce humaine (en excluant les espèces domestiquées). La sélection de parentèle, ou bien un facteur pléiotrope antagoniste sont classiquement proposés, bien que l'essentiel des données proviennent de sociétés occidentales. Nous avons proposé une nouvelle hypothèse, basée sur la stratification sociale et permettant d'expliquer la spécificité humaine, dans laquelle la migration sexe-dépendante de type hypergyne amplifie la sélection d'un gène antagoniste. La plausibilité de cette hypothèse est confirmée par des modèles théoriques d'ESS et des modélisations individu-centrés. De plus, une analyse comparative basée sur données anthropologiques a permis de montrer un lien entre le niveau de stratification d'une société et la probabilité que la PHM soit connue dans cette société. La sélection de parentèle, mesurée dans une société non-occidentale (Indonésie), semble participer à la compensation du coût reproductif de la PHM, mais insuffisamment pour en expliquer le maintien. Les principales caractéristiques familiales associées à la PHM, l'excès de grands frères, et la fécondité accrue dans certaines classe d'apparentés, se retrouvent également en Indonésie. Toutefois, en Indonésie, les classes d'apparentés concernées différent en partie des résultats obtenus en occident et ne correspondent pas aux attendues de l'hypothèse de sélection sexuellement antagoniste portée par le chromosome X. La prise en compte de l'interaction entre facteurs sociaux et biologiques ainsi que l'acquisition de données hors des sociétés occidentales ouvrent de nouvelles perspectives de compréhension de ce paradoxe darwinien. / Male homosexual preference (MHP) is considered as a Darwinian paradox, as it is partially heritable, induces a reproductive cost, has a prevalence estimated (in western countries) between 2 and 6%, and seems to be specific to humans (excluding domesticated species). Kin selection or sexually antagonistic factors have been proposed as possible explanations, although most data come from western countries. Here, we proposed a new hypothesis, based on social stratification, able to explain the specificity of human MHP, in which hypergyny (up-migration of the women) enhances the selection of a sexually antagonistic gene. This hypothesis is supported by theoretical models (ESS) and individual-based modelling. Furthermore, a comparative analysis based on anthropological data showed that the level of social stratification predicts the probability for MHP to be known in a society. Kin selection was tested in a non-western society (Indonesia), and seems to contribute to the compensation of the reproductive costs associated with MHP, although this effect alone was insufficient to explain the maintenance of MHP. The main biodemographic features associated with MHP, an excess of older brother and an increased fecundity of some classes of relatives, were also found in Indonesia. However, the classes of relatives affected by this increased fecundity differ from the classes affected in western populations, and differ from the predictions of the sexually antagonistic genetic factor hypothesis displayed on an X chromosome. Taking into account the interaction between social and biological factors, together with the acquisition of new data in non-western populations, open new perspectives in our understanding of this Darwinian paradox. Stratification sociale Hypergynie Sélection de parentèle Préférence homosexuelle Effet grand frère Social stratification Hypergyny Kin selection Homosexual preference Sexually antagonistic genetic factor Older brother effect
50	Résistance à l'apoptose induite par TRAIL-R4 : sensibilisation des cellules tumorales par la chimiothérapie ou des mimétiques de TRAIL / TRAIL-R4 mediated resistance to TRAIL induced apoptosis : use of chemotherapy and TRAIL mimetics to overcome it Morizot, Alexandre 22 October 2010 (has links) La protéine TRAIL (TNF Related Apoptosis Inducing Ligand) suscite un grand intérêt en thérapie anticancéreuse. Contrairement à la plupart des traitements couramment utilisés en clinique, cette protéine induit sélectivement la mort par apoptose de nombreuses cellules cancéreuses. Cette cytokine exerce son activité cytotoxique en se liant à des récepteurs transmembranaires exprimés à la surface de la cellule cible. Par un jeu d’interactions protéiques, la fixation de TRAIL sur ces récepteurs agonistes (TRAIL-R1 et TRAIL-R2) conduit à l’activation de l’apoptose. L’expression de deux récepteurs antagonistes, TRAIL-R3 et TRAIL-R4, par les cellules cancéreuses, permet aux cellules cibles d’échapper à l’apoptose induite par TRAIL. Nous montrons que ces deux récepteurs font intervenir des mécanismes moléculaires distincts. Leur expression pouvant potentiellement représenter un frein à l’utilisation clinique de TRAIL, nous avons étudié l’effet de la surexpression de l’un d’entre eux, TRAIL-R4 sur l’efficacité des stratégies thérapeutiques associant TRAIL aux chimiothérapies conventionnelles. Les résultats obtenus montrent également que la résistance induite par TRAIL-R4 peut être contournée in vitro et in vivo en associant TRAIL à des agents chimiothérapeutiques. D’un point de vue moléculaire, nous avons montré que la sensibilisation à TRAIL 1) implique une augmentation du recrutement et de l’activation de la caspase-8 au sein du DISC de TRAIL, 2) ne nécessite pas la voie mitochondriale, et 3) est négativement régulée de manière coopérative par c-FLIP, un inhibiteur sélectif de la caspase-8. De manière intéressante, comme les anticorps agonistes actuellement testés en clinique, de petits peptides agonistes de TRAIL-R2, développés en collaboration avec une équipe de chimiste, permettent de contourner la résistance induite par TRAIL-R4, offrant des perspectives thérapeutiques intéressantes. Les récepteurs TRAIL-R3 et TRAIL-R4 sont donc des inhibiteurs de TRAIL. Nos travaux démontrent cependant, que les stratégies associant TRAIL à des agents chimiothérapeutiques, ou l'utilisation d'agonistes TRAIL-R2 permet de contourner la résistance induite par les récepteurs antagonistes de TRAIL et donc d’éliminer ces cellules cancéreuses. / TRAIL (TNF Related Apoptosis Inducing Ligand) is a very promising cytokine for cancer therapy. Contrary to current treatments, this protein is able to selectively kill cancer cells, whilst sparing healthy cells. TRAIL induces apoptosis following binding to one of its two different agonistic membrane receptors, TRAIL-R1 and TRAIL-R2. However, expression of one of its two antagonistic receptors, TRAIL-R3 and TRAIL-R4, on cancer cells can impair cancer cell killing by TRAIL. We have shown that these receptors inhibit TRAIL-induced cell death differentially. As these receptors can represent a brake for the use of TRAIL in cancer therapy, we investigated the effect of the expression of one of them, TRAIL-R4 on the efficacy of the different therapeutic strategies associating TRAIL and conventional therapeutic drugs. We show that acquired resistance to TRAIL following expression of TRAIL-R4 can be overcome in vitro and in vivo by combining TRAIL with chemotherapeutic agents. From a molecular point of view, we could demonstrate that sensitization to TRAIL 1) occurs mainly through an increase of caspase-8 recruitment and activation within the TRAIL DISC, 2) is independent of the mitochondrial pathway and 3) is negatively regulated, in a cooperative manner by c-FLIP, a caspase-8 selective inhibitor. Interestingly, like agonistic receptors currently tested in clinic, small agonistic peptides targeting TRAIL-R2, engineered in collaboration with a team of chemists, afford cancer cell killing regardless of TRAIL-R4 expression, providing novel therapeutic perspectives. TRAIL-R3 and TRAIL-R4 should thus be considered as TRAIL inhibitors. Our results demonstrate however that strategies aiming at combining TRAIL with chemotherapeutic agents or the use of TRAIL-R1 or TRAIL-R2 agonists could be effective treatments to eradicate cancer cells that express TRAIL antagonistic receptors. Cancer Trail Trail-r Récepteurs antagonistes Chimiothérapie TRAIL-R agonistes Cancer Trail Trail-r Antagonistic receptors Chemotherapy TRAIL-R agonist 612 615.5

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