Journal
CELLULAR AND MOLECULAR LIFE SCIENCES
Volume 79, Issue 9, Pages -Publisher
SPRINGER BASEL AG
DOI: 10.1007/s00018-022-04533-6
Keywords
Oligodendrocytes; Social behavior; microRNA; Myelin plasticity; FISH
Categories
Funding
- National Natural Science Foundation of China [81801378, 81871117]
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Research has found that patients with autism spectrum disorder (ASD) have higher levels of miR-124, which may be related to brain development and social isolation. Animal models indicate that the miR-124 signaling pathway is involved in regulating myelination in brain regions associated with early social experiences, and could be a potential therapeutic target for neuropsychiatric disorders related to social neglect or social isolation.
Patients with autism spectrum disorder (ASD) typically experience substantial social isolation, which may cause secondary adverse effects on their brain development. miR-124 is the most abundant miRNA in the human brain, acting as a pivotal molecule regulating neuronal fate determination. Alterations of miR-124 maturation or expression are observed in various neurodevelopmental, neuropsychiatric, and neurodegenerative disorders. In the present study, we analyzed a panel of brain-enriched microRNAs in serums from 2 to 6 year old boys diagnosed with ASD. The hsa-miR-124 level was found significantly elevated in ASD boys than in age and sex-matched healthy controls. In an isolation-reared weanling mouse model, we evidenced elevated mmu-miR-124 level in the serum and the medial prefrontal cortex (mPFC). These mice displayed significant sociability deficits, as well as myelin abnormality in the mPFC, which was partially rescued by expressing the miR-124 sponge in the bilateral mPFC, ubiquitously or specifically in oligodendroglia. In cultured mouse oligodendrocyte precursor cells, introducing a synthetic mmu-miR-124 inhibited the differentiation process through suppressing expression of nuclear receptor subfamily 4 group A member 1 (Nr4a1). Overexpressing Nr4a1 in the bilateral mPFC also corrected the social behavioral deficits and myelin impairments in the isolation-reared mice. This study revealed an unanticipated role of the miR-124/Nr4a1 signaling in regulating early social experience-dependent mPFC myelination, which may serve as a potential therapy target for social neglect or social isolation-related neuropsychiatric disorders.
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