Elodie Perrin scite author profile

Dysfunctions in brain cholesterol homeostasis have been extensively related to brain disorders. The main pathway for brain cholesterol elimination is its hydroxylation into 24S-hydroxycholesterol by the cholesterol 24-hydrolase, CYP46A1. Increasing evidence suggests that CYP46A1 has a role in the pathogenesis and progression of neurodegenerative disorders, and that increasing its levels in the brain is neuroprotective. However, the mechanisms underlying this neuroprotection remain to be fully understood. Huntington’s disease is a fatal autosomal dominant neurodegenerative disease caused by an abnormal CAG expansion in huntingtin’s gene. Among the multiple cellular and molecular dysfunctions caused by this mutation, altered brain cholesterol homeostasis has been described in patients and animal models as a critical event in Huntington’s disease. Here, we demonstrate that a gene therapy approach based on the delivery of CYP46A1, the rate-limiting enzyme for cholesterol degradation in the brain, has a long-lasting neuroprotective effect in Huntington’s disease and counteracts multiple detrimental effects of the mutated huntingtin. In zQ175 Huntington’s disease knock-in mice, CYP46A1 prevented neuronal dysfunctions and restored cholesterol homeostasis. These events were associated to a specific striatal transcriptomic signature that compensates for multiple mHTT-induced dysfunctions. We thus explored the mechanisms for these compensations and showed an improvement of synaptic activity and connectivity along with the stimulation of the proteasome and autophagy machineries, which participate to the clearance of mutant huntingtin (mHTT) aggregates. Furthermore, BDNF vesicle axonal transport and TrkB endosome trafficking were restored in a cellular model of Huntington’s disease. These results highlight the large-scale beneficial effect of restoring cholesterol homeostasis in neurodegenerative diseases and give new opportunities for developing innovative disease-modifying strategies in Huntington’s disease.

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Circulating Triglycerides Gate Dopamine-Associated Behaviors through DRD2-Expressing Neurons

Berland

Montalban

Perrin

et al. 2020

Cell Metabolism

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Author's contributions CB designed, performed and analyzed most of the experiments. EM performed transcriptomic meta-analyses, behavioral and molecular studies. EP, MDM, MM, SP, SLa, XF, LV performed and analyzed ex vivo patch-clamp electrophysiology. DS, YN, MB, XSD performed human studies and data analysis. ST, FM and PF performed and analyzed in vivo electrophysiology recordings. MAS performed the RNAscope and lipidomics studies. JC helped with surgery and behavioral procedures. CMo helped performing western blots and dissections. CMa designed and performed doppler imaging and fiber photometry experiments. MCad and SC designed and performed self-administration experiments. JHS and CBJ performed the iDISCO analysis. MHT, GG, TSH and SL secured funding. TSH and DS provided scientific guidance and experimental design. SL and GG supervised the whole project, interpreted the data and wrote the manuscript with contribution from all coauthors.

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Elodie Perrin

CYP46A1 gene therapy deciphers the role of brain cholesterol metabolism in Huntington’s disease

Circulating Triglycerides Gate Dopamine-Associated Behaviors through DRD2-Expressing Neurons

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