Mouse Nr2f1 haploinsufficiency unveils new pathological mechanisms of a human optic atrophy syndrome.

Michele Bertacchi, Agnès Gruart, Polynikis Kaimakis, Cécile Allet, Linda Serra, Paolo Giacobini, José M Delgado-García, Paola Bovolenta, Michèle Studer

EMBO molecular medicine 2019 Aug

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Optic nerve atrophy represents the most common form of hereditary optic neuropathies leading to vision impairment. The recently described Bosch-Boonstra-Schaaf optic atrophy (BBSOA) syndrome denotes an autosomal dominant genetic form of neuropathy caused by mutations or deletions in the NR2F1 gene. Herein, we describe a mouse model recapitulating key features of BBSOA patients-optic nerve atrophy, optic disc anomalies, and visual deficits-thus representing the only available mouse model for this syndrome. Notably, Nr2f1-deficient optic nerves develop an imbalance between oligodendrocytes and astrocytes leading to postnatal hypomyelination and astrogliosis. Adult heterozygous mice display a slower optic axonal conduction velocity from the retina to high-order visual centers together with associative visual learning deficits. Importantly, some of these clinical features, such the optic nerve hypomyelination, could be rescued by chemical drug treatment in early postnatal life. Overall, our data shed new insights into the cellular mechanisms of optic nerve atrophy in BBSOA patients and open a promising avenue for future therapeutic approaches. © 2019 The Authors. Published under the terms of the CC BY 4.0 license.

Citation

Michele Bertacchi, Agnès Gruart, Polynikis Kaimakis, Cécile Allet, Linda Serra, Paolo Giacobini, José M Delgado-García, Paola Bovolenta, Michèle Studer. Mouse Nr2f1 haploinsufficiency unveils new pathological mechanisms of a human optic atrophy syndrome. EMBO molecular medicine. 2019 Aug;11(8):e10291