Soutenance de thèse Antoine PERSELLO
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Le 19 July 2021Institut de Recherche en Santé - 8 quai Moncousu - Nantes
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14h00
Titre de la thèse : Evaluation of the therapeutic potential of inhibitors of the phosphatase complex PP1c/GADD34 on the integrated stress response during extracorporeal circulation
Equipe
Equipe IIb - Heart failure and pharmacological approaches
Directeur de thèse
Co-directeur de thèse
Bertrand ROZEC
Co-encadrant
Emmanuelle ABGUEGUEN - InFlectis BioScience
Jury
- Paul-Michel MERTES - Professeur des universités – Praticien hospitalier – NHC - Strasbourg (Examinateur)
- Fabienne FOUFELLE - Directeur de recherche INSERM-CRC - Inserm - UMRS 1138 (Examinateur)
- Anne Claire LUKASZEWICZ - Professeur des universités – Praticien hospitalier – Hospices civiles de Lyon (Examinateur)
Résumé
Cardiopulmonary bypass (CPB) is a gold standard procedure in cardiac surgery that aim to replace cardio-pulmonary function. The blood contact with the extrinsic elements of the circuit promotes inflammation leading to a systemic inflammatory response syndrome and homeostasis dysregulation. The consequences of this deregulation can lead to multi-organ dysfunction. In this context, there is an urgent need to develop new pharmacological approach to reduce the consequences of CPB. Modulation of the ubiquitous stress response pathway (ISR) is a promising approach that has already been proven in other pathologies. ISR activation allows an adapted cellular response for the resolution of stress. The aim of my thesis was to evaluate the therapeutic effect of inhibitors of the GADD34/PP1c phosphatase complex which is responsible for the termination of ISR. To this purpose, a rat model mimicking CPB was developed. The relevance of this model was first validated for preclinical use by hemodynamic and biochemical monitoring and by comparison to parameters found in humans. Finally, we have demonstrated beneficial effects on hemodynamic, pulmonary, renal, and cerebral parameters after administration of the compounds, associated with an anti-inflammatory effect on this model. These effects and the associated mechanisms are currently being under investigation.