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Disturbances of brain cholesterol metabolism: A new excitotoxic process associated with status epilepticus

Aurélie Hanin, Paul Baudin, Sophie Demeret, Delphine Roussel, Sarah Lecas, Elisa Teyssou, Maria Damiano, David Luís, Virginie Lambrecq, Valério Frazzini, Maxens Decavèle, Isabelle Plu, Dominique Bonnefont‐Rousselot, Randa Bittar, Foudil Lamari, Vincent Navarro

2021Neurobiology of Disease20 citationsDOIOpen Access PDF

Abstract

The understanding of the excitotoxic processes associated with a severe status epilepticus (SE) is of major importance. Changes of brain cholesterol homeostasis is an emerging candidate for excitotoxicity. We conducted an overall analysis of the cholesterol homeostasis both (i) in fluids and tissues from patients with SE: blood (n = 63, n = 87 controls), CSF (n = 32, n = 60 controls), and post-mortem brain tissues (n = 8, n = 8 controls) and (ii) in a mouse model of SE induced by an intrahippocampal injection of kainic acid. 24-hydroxycholesterol levels were decreased in kainic acid mouse hippocampus and in human plasma and post-mortem brain tissues of patients with SE when compared with controls. The decrease of 24-hydroxycholesterol levels was followed by increased cholesterol levels and by an increase of the cholesterol synthesis. Desmosterol levels were higher in human CSF and in mice and human hippocampus after SE. Lanosterol and dihydrolanosterol levels were higher in plasma from SE patients. Our results suggest that a CYP46A1 inhibition could occur after SE and is followed by a brain cholesterol accumulation. The excess of cholesterol is known to be excitotoxic for neuronal cells and may participate to neurological sequelae observed after SE. This study highlights a new pathophysiological pathway involved in SE excitotoxicity.

Topics & Concepts

Status epilepticusExcitotoxicityKainic acidInternal medicineEndocrinologyHippocampusDesmosterolHippocampal formationCholesterolHomeostasisChemistryBiologyMedicineEpilepsyNeuroscienceNMDA receptorGlutamate receptorSterolReceptorCholesterol and Lipid MetabolismNeuroscience and Neuropharmacology ResearchDrug Transport and Resistance Mechanisms
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