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Abstract

In arthropods, the melanization reaction consists in the rapid synthesis of melanin at the site of infection and injury. A key enzyme in the melanization process is phenoloxidase (PO), which catalyzes the oxidation of phenols to quinones that subsequently polymerize into melanin. PO is synthesized under an inactive form called pro-PO (PPO) that is activated upon cleavage by a terminal protease of a serine protease cascade. The main objective of my PhD thesis is to understand the role and regulation of the melanization reaction in the Drosophila immune response. The Drosophila genome encodes three PPOs, two of which, PPO1 and PPO2, are produced by crystal cells, a larval-specific type of hemocyte. I generated flies carrying null mutations in PPO1 and PPO2 as well as PPO1, PPO2 double mutant flies. My results show that both PPO1 and PPO2 contribute to the PO activity in the hemolymph induced by septic injury. While PPO1 is involved in the early delivery of PO activity, PPO2 is stored in crystalline form in the crystal cells and can be deployed at a later phase of the immune response. My genetic analysis also reveals an important role of PPO1 and PPO2 in the resistance of flies to infection with Gram-positive bacteria and fungi. This study definitively establishes the importance of melanization in insect host defense. Serine proteases regulate many immune reactions, including blood clotting, the complement system in mammals, and melanization and Toll pathway activation in insects. A second objective of my thesis is to identify new serine proteases or serine protease inhibitors (serpins) participating in the Drosophila immune response. I performed an RNAi screen to identify genes encoding serine protease or serpins whose inactivation caused an immune phenotype. In parallel, I identified or generated mutations affecting some serine proteases and serpins and described their immune phenotype. This led to the identification of SPH9, a gene strongly induced by microbial infection, which encodes a serine protease homologue that negatively regulates the melanization reaction. Together, my results provide new insights on the melanization reaction in Drosophila.

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