The implementation of the project has included the purchase of all equipment required to perform the experiments including a live-imaging setup suitable for real-time imaging of the metabolic activity in developing axons. We gathered a team of researchers and clinicians to work on this project and could implement three parallel aims. The main achievements are as follow :
We have validated methods to measure and manipulate metabolic activity in cultured neurons. With this set of techniques, we contributed to demonstrate the central role of mitochondria in the regulation of cortical circuits complexity, and identified some of the molecular mechanisms involved, which constitute putative druggable targets (work in progress).
We uncovered how extracellular signals tied to the local regulation of axonal morphogenesis converge on the regulation of neuronal signaling pathways that are important for metabolic regulation in the developing brain.
We tested the relevance of polymorphisms identified in cohorts of patients suffering from neurodevelopmental disorders and demonstrated that the NUAK1 gene is haploinsufficient in regards to cortical circuits development and demonstrated the potential pathogenicity of mutations in this gene and associated to neurodevelopmental disorders.
Overall, this project led to 9 publications, and several other articles are in preparation. Two PhD students defended and earned a PhD with two more students still in progress.