Implication of folate deficiency in CYP2U1 loss of function

International audienceHereditary spastic paraplegias are heterogeneous neurodegenerative disorders. Understanding of their pathogenicmechanisms remains sparse, and therapeutic options are lacking. We characterized a mouse model lacking the Cyp2u1 gene, lossof which is known to be involved in a complex form of these diseases in humans. We showed that this model partially recapitulated the clinical and biochemical phenotypes of patients. Using electron microscopy, lipidomic, and proteomicstudies, we identified vitamin B2 as a substrate of the CYP2U1 enzyme, as well as coenzyme Q, neopterin, and IFN-α levels asputative biomarkers in mice and fluids obtained from the largest series of CYP2U1-mutated patients reported so far. We alsoconfirmed brain calcifications as a potential biomarker in patients. Our results suggest that CYP2U1 deficiency disruptsmitochondrial function and impacts proper neurodevelopment, which could be prevented by folate supplementation in ourmouse model, followed by a neurodegenerative process altering multiple neuronal and extraneuronal tissues