Chemical targeting of NEET proteins reveals their function in mitochondrial morphodynamics

Archive ouverte

Molino, Diana | Pila‐castellanos, Irene | Marjault, Henri‐baptiste | Dias Amoedo, Nivea | Kopp, Katja | Rochin, Leila | Karmi, Ola | Sohn, Yang‐sung | Lines, Laetitia | Hamaï, Ahmed | Joly, Stéphane | Radreau, Pauline | Vonderscher, Jacky | Codogno, Patrice | Giordano, Francesca | Machin, Peter | Rossignol, Rodrigue | Meldrum, Eric | Arnoult, Damien | Ruggieri, Alessia | Nechushtai, Rachel | de Chassey, Benoit | Morel, Etienne

Edité par CCSD ; EMBO Press -

International audience. Several human pathologies including neurological, cardiac, infectious , cancerous, and metabolic diseases have been associated with altered mitochondria morphodynamics. Here, we identify a small organic molecule, which we named Mito-C. Mito-C is targeted to mitochondria and rapidly provokes mitochondrial network fragmentation. Biochemical analyses reveal that Mito-C is a member of a new class of heterocyclic compounds that target the NEET protein family, previously reported to regulate mito-chondrial iron and ROS homeostasis. One of the NEET proteins, NAF-1, is identified as an important regulator of mitochondria morphodynamics that facilitates recruitment of DRP1 to the ER-mitochondria interface. Consistent with the observation that certain viruses modulate mitochondrial morphogenesis as a necessary part of their replication cycle, Mito-C counteracts dengue virus-induced mitochondrial network hyperfusion and represses viral replication. The newly identified chemical class including Mito-C is of therapeutic relevance for pathologies where altered mitochondria dynamics is part of disease etiology and NEET proteins are highlighted as important therapeutic targets in anti-viral research.

• Description
• Sujet/Public
• Outil
• Outil d'anticipation
• Mémoire et thèse
• Gestion