28 research outputs found
Dégénérescence musculaire chez Caenorhabditis elegans : caractérisation morphologique et étude de suppresseurs
Muscle dystrophies are genetic diseases caraterized by progressive muscle degeneration. Duchenne Muscular Dystrophy (DMD) is the most severe and is due to a mutation in the gene coding the dystrophin protein. The cellular mechanisms implicated in the degenerating process arte not understood yet and there is still no efficient treatment to cure the disease. Our group decvelopped a DMD model in C. elegans that presents progressive muscle degeneration. During my PhD thesis, I characterized the process of muscle degeneration in this model by electron microscopy. I also contribued to an investigation of the role of mitochondira in dystophin-dependant muscle degeneration. I also studied the effect of pharmacological and genetic suppressors of muscle degeneration. Finally, I showed that the force developped by the worm to move influences the level of muscle degeneration. Altogether, the results I obtained during my PhD thesis, suggest that the loss of funciotnof the dystrophin protein affects the integrity of the muscle plasma membrane and the sarcomeres anchoring structures triggering a cascade of intracellular events leading to the muscle cell death in C. elegans. Therefore, my results highlight new cellular mechanisms implicated in the phenomenon of muscle degeneration and open new perspectives for the development of therapies targeting primary and secondary defects induced by the dystrophin loss of function.Les dystrpohies musculaires sont des maladies génétiques rares qui se caractérisent par une dégénérescence musculaire progressive. la Dystrophie Musculaire de Duchenne (DMD) qui est la plus sévÚre d'entre elles est due à des mutations dans le gÚne de la dystrophine. Les mécanismes cellulaires impliqués dans le processus de dégénérescence des muscles restent peu compris et aucun traitement efficace n'existe à ce jour. Notre équipe a développé un modÚle de la DMD chez le nématode C. elegans qui présente une dégénérescence musculaire progressive. Pendant ma thÚse, j'ai caractérisé le processus de dégénérescence musculaire chez ce modÚle par microscopie électronique. J'ai également contribué à une étude du rÎle des mitochondries dans la dégénérescence musculaire dystrophine-dépendante chez le nématode. Par ailleurs, j'ai étudié l'effet de suppresseurs pharmacologique et génétiques de la dégénérescence musculaire dystrophine-dépendante. Enfin, j'ai pu mettre en évidence que la force exercée par le muscle influence le taux de dégénérescence musculaire. L'ensemble des résultats obtenus au cours de ma thÚse, suggÚrent que la perte de fonctions de la dystrophine affecte chez le nématode l'intégrité du sarcolemme et des structures d'ancrage des sarcomÚres et déclenche ainsi une cascade d'événements intracellulaires conduisant in fin à la mort de la cellule musculaire. Ainsi mes travaux dethÚse mettent en évidence de nouveau mécanismes cellulaires impliqués dans la dégénérescence musculaire et ouvrent de nouvelles perspectives pour le développement de thérapie visant à cibler les défauts primaires ou secondaires induits par la perte de fonction de la dystrophin
Meisosomes, folded membrane microdomains between the apical extracellular matrix and epidermis
Apical extracellular matrices (aECMs) form a physical barrier to the environment. In Caenorhabditis elegans, the epidermal aECM, the cuticle, is composed mainly of different types of collagen, associated in circumferential ridges separated by furrows. Here, we show that in mutants lacking furrows, the normal intimate connection between the epidermis and the cuticle is lost, specifically at the lateral epidermis, where, in contrast to the dorsal and ventral epidermis, there are no hemidesmosomes. At the ultrastructural level, there is a profound alteration of structures that we term 'meisosomes,' in reference to eisosomes in yeast. We show that meisosomes are composed of stacked parallel folds of the epidermal plasma membrane, alternately filled with cuticle. We propose that just as hemidesmosomes connect the dorsal and ventral epidermis, above the muscles, to the cuticle, meisosomes connect the lateral epidermis to it. Moreover, furrow mutants present marked modifications of the biomechanical properties of their skin and exhibit a constitutive damage response in the epidermis. As meisosomes co-localise to macrodomains enriched in phosphatidylinositol (4,5) bisphosphate, they could conceivably act, like eisosomes, as signalling platforms, to relay tensile information from the aECM to the underlying epidermis, as part of an integrated stress response to damage
A fungal family of lytic polysaccharide monooxygenase-like copper proteins
Lytic polysaccharide monooxygenases (LPMOs) are copper-containing enzymes that play a key role in the oxidative degradation of various biopolymers such as cellulose and chitin. While hunting for new LPMOs, we identified a new family of proteins, defined here as X325, in various fungal lineages. The three-dimensional structure of X325 revealed an overall LPMO fold and a His brace with an additional Asp ligand to Cu(II). Although LPMO-type activity of X325 members was initially expected, we demonstrated that X325 members do not perform oxidative cleavage of polysaccharides, establishing that X325s are not LPMOs. Investigations of the biological role of X325 in the ectomycorrhizal fungus Laccaria bicolor revealed exposure of the X325 protein at the interface between fungal hyphae and tree rootlet cells. Our results provide insights into a family of copper-containing proteins, which is widespread in the fungal kingdom and is evolutionarily related to LPMOs, but has diverged to biological functions other than polysaccharide degradation
Muscle degeneration in Caenorhabditis elegans : morphological caracterisation and study of suppressors
Les dystrpohies musculaires sont des maladies génétiques rares qui se caractérisent par une dégénérescence musculaire progressive. la Dystrophie Musculaire de Duchenne (DMD) qui est la plus sévÚre d'entre elles est due à des mutations dans le gÚne de la dystrophine. Les mécanismes cellulaires impliqués dans le processus de dégénérescence des muscles restent peu compris et aucun traitement efficace n'existe à ce jour. Notre équipe a développé un modÚle de la DMD chez le nématode C. elegans qui présente une dégénérescence musculaire progressive. Pendant ma thÚse, j'ai caractérisé le processus de dégénérescence musculaire chez ce modÚle par microscopie électronique. J'ai également contribué à une étude du rÎle des mitochondries dans la dégénérescence musculaire dystrophine-dépendante chez le nématode. Par ailleurs, j'ai étudié l'effet de suppresseurs pharmacologique et génétiques de la dégénérescence musculaire dystrophine-dépendante. Enfin, j'ai pu mettre en évidence que la force exercée par le muscle influence le taux de dégénérescence musculaire. L'ensemble des résultats obtenus au cours de ma thÚse, suggÚrent que la perte de fonctions de la dystrophine affecte chez le nématode l'intégrité du sarcolemme et des structures d'ancrage des sarcomÚres et déclenche ainsi une cascade d'événements intracellulaires conduisant in fin à la mort de la cellule musculaire. Ainsi mes travaux dethÚse mettent en évidence de nouveau mécanismes cellulaires impliqués dans la dégénérescence musculaire et ouvrent de nouvelles perspectives pour le développement de thérapie visant à cibler les défauts primaires ou secondaires induits par la perte de fonction de la dystrophineMuscle dystrophies are genetic diseases caraterized by progressive muscle degeneration. Duchenne Muscular Dystrophy (DMD) is the most severe and is due to a mutation in the gene coding the dystrophin protein. The cellular mechanisms implicated in the degenerating process arte not understood yet and there is still no efficient treatment to cure the disease. Our group decvelopped a DMD model in C. elegans that presents progressive muscle degeneration. During my PhD thesis, I characterized the process of muscle degeneration in this model by electron microscopy. I also contribued to an investigation of the role of mitochondira in dystophin-dependant muscle degeneration. I also studied the effect of pharmacological and genetic suppressors of muscle degeneration. Finally, I showed that the force developped by the worm to move influences the level of muscle degeneration. Altogether, the results I obtained during my PhD thesis, suggest that the loss of funciotnof the dystrophin protein affects the integrity of the muscle plasma membrane and the sarcomeres anchoring structures triggering a cascade of intracellular events leading to the muscle cell death in C. elegans. Therefore, my results highlight new cellular mechanisms implicated in the phenomenon of muscle degeneration and open new perspectives for the development of therapies targeting primary and secondary defects induced by the dystrophin loss of function
DNAse-dependent, NET-independent pathway of thrombus formation in vivo
International audienceSignificance Thrombosis constitutes a major contributor to the global disease burden. Recently, the contribution of neutrophils and neutrophil extracellular traps in thrombosis has been intensively documented. DNAse-I by its ability to cleave DNA has been proposed as an efficient antithrombotic drug. In this paper, we showed that DNase-I inhibits the formation of a platelet thrombus and the generation of fibrin independent of its enzymatic activity on DNA. We proposed that DNase-I hydrolyzes adenosine triphosphate and adenosine diphosphate (two important platelet and neutrophil agonists) into adenosine, an antagonist of platelet and neutrophil
THINKING (AND LIVING) EVERYDAY WINE FARM LANDSCAPE AS HORTUS
The study focuses on farmyard landscape quality in wine-growing and producing farms, and is part of a broader research which mainly considers everyday rural landscapes and aims at defining building design criteria for the architectural and landscape quality of agricultural settlements.
The research subject of wine production landscapes has been considered since they represent everyday landscapes (European Landscape Convention, art. 2) to which the collective imagery worldwide acknowledges such a high identity value (ELC, art. 5) that they have become emblematic of the culture of several European countries, including Italy.
The specific objective of the study is to analyse the main variables that should be considered to design the open spaces of wine-growing and producing farms, with particular reference to Italian small and medium-sized ones. Since they can be found spread over wide areas of the country, they significantly contribute to define its agricultural landscape identity.
Given the diversification of Italian wine landscapes, we referred to a study area which proved significant for wine production in Emilia-Romagna in order to contextualize the main issues of landscape design of the wine farm open spaces. The landscape, composition and architectural characters of the various design solutions have been analysed on a representative sample of farms. These analyses have been supported by several on-site surveys, which included interviews to farmers and consumers, surveyed through ad hoc questionnaires and focus groups which also put together professionals employed in specialized firms of the wine-making sector.
The analyses allowed to define the main requirements, problems and critical issues related to farmyard design, with reference, on one hand to the various functional aspects of cultivation, harvesting, processing, bottling, and product commercialisation, and on the other hand to aesthetic quality requirements linked to the farm image and marketing strategies.
These analyses also allowed to point out some useful references for the quality design of these everyday landscapes. Such indications are discussed in this paper also with reference to a selection of the investigated study cases which proved useful to exemplify the above-mentioned themes
Myofibril and mitochondria morphogenesis are coordinated by a mechanical feedback mechanism in muscle
International audienceComplex animals build specialised muscles to match specific biomechanical and energetic needs. Hence, composition and architecture of sarcomeres and mitochondria are muscle type specific. However, mechanisms coordinating mitochondria with sarcomere morphogenesis are elusive. Here we use Drosophila muscles to demonstrate that myofibril and mitochondria morphogenesis are intimately linked. In flight muscles, the muscle selector spalt instructs mitochondria to intercalate between myofibrils, which in turn mechanically constrain mitochondria into elongated shapes. Conversely in cross-striated leg muscles, mitochondria networks surround myofibril bundles, contacting myofibrils only with thin extensions. To investigate the mechanism causing these differences, we manipulated mitochondrial dynamics and found that increased mitochondrial fusion during myofibril assembly prevents mitochondrial intercalation in flight muscles. Strikingly, this causes the expression of crossstriated muscle specific sarcomeric proteins. Consequently, flight muscle myofibrils convert towards a partially cross-striated architecture. Together, these data suggest a biomechanical feedback mechanism downstream of spalt synchronizing mitochondria with myofibril morphogenesis
Reticular Fibroblasts Expressing the Transcription Factor WT1 Define a Stromal Niche that Maintains and Replenishes Splenic Red Pulp Macrophages
International audienceLocated within red pulp cords, splenic red pulp macrophages (RPMs) are constantly exposed to the bloodflow, clearing senescent red blood cells (RBCs) and recycling iron from hemoglobin. Here, we studied themechanisms underlying RPM homeostasis, focusing on the involvement of stromal cells as these cellsperform anchoring and nurturing macrophage niche functions in lymph nodes and liver. Microscopy revealedthat RPMs are embedded in a reticular meshwork of red pulp fibroblasts characterized by the expression ofthe transcription factor Wilmsâ Tumor 1 (WT1) and colony stimulating factor 1 (CSF1). Conditional deletion ofCsf1in WT1+red pulp fibroblasts, but not white pulp fibroblasts, drastically altered the RPM network withoutaltering circulating CSF1 levels. Upon RPM depletion, red pulp fibroblasts transiently produced the mono-cyte chemoattractants CCL2 and CCL7, thereby contributing to the replenishment of the RPM network.Thus, red pulp fibroblasts anchor and nurture RPM, a function likely conserved in humans
The conduit system exports locally secreted IgM from lymph nodes
International audienceImmunoglobulin M (IgM) is the first type of antibody produced during acute infections and thus provides an early line of specific defense against pathogens. Being produced in secondary lymphoid organs, IgM must rapidly be exported to the blood circulation. However, it is currently unknown how such large pentameric molecules are released from lymph nodes (LNs). Here, we show that upon immunization, IgM transiently gains access to the luminal side of the conduit system, a reticular infrastructure enabling fast delivery of tissue-derived soluble substances to the LN parenchyma. Using microinjections of purified IgM, we demonstrate that conduit-associated IgM is delivered by neither the afferent lymph nor the blood, but is locally conveyed by conduits. Exploiting in vivo models, we further demonstrate that conduit-associated IgM is locally and transiently produced by activated, antigen-specific B cells migrating in the T cell zone. Thus, our study reveals that the conduit system is coopted by B cells to rapidly export secreted IgM out of LNs
A thrombus is formed by a gradient of platelet activation and procoagulant endothelium
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