During brain development, neurons can regulate their movement until they reach their final destination thanks to a “molecular switch” involving the protein Teneurin 4 (Ten4). This protein can guide neuronal migration through mutually exclusive molecular pathways and determine the direction of nerve cells.

The discovery, published in the journal Nature Communications, improves our understanding of the molecular mechanisms that control neuronal migration and offers new insights into how the brain develops at the molecular level.

The study combines advanced techniques — structural protein studies, gene editing in animal models and super-resolution microscopy — to broaden our understanding of the origins of neurodevelopmental disorders and psychiatric or neurological conditions —schizophrenia, epilepsy, autism, bipolar disorder, etc. — which may be linked to errors in neuronal migration.