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Oligodendrocytes and myelin limit neuronal plasticity in visual cortex

Wendy Xin, Megumi Kaneko, Richard H. Roth, Albert Zhang, Sonia Nocera, Jun Ding, Michael P. Stryker, Jonah R. Chan

2024Nature62 citationsDOIOpen Access PDF

Abstract

Abstract Developmental myelination is a protracted process in the mammalian brain 1 . One theory for why oligodendrocytes mature so slowly posits that myelination may stabilize neuronal circuits and temper neuronal plasticity as animals age 2–4 . We tested this theory in the visual cortex, which has a well-defined critical period for experience-dependent neuronal plasticity 5 . During adolescence, visual experience modulated the rate of oligodendrocyte maturation in visual cortex. To determine whether oligodendrocyte maturation in turn regulates neuronal plasticity, we genetically blocked oligodendrocyte differentiation and myelination in adolescent mice. In adult mice lacking adolescent oligodendrogenesis, a brief period of monocular deprivation led to a significant decrease in visual cortex responses to the deprived eye, reminiscent of the plasticity normally restricted to adolescence. This enhanced functional plasticity was accompanied by a greater turnover of dendritic spines and coordinated reductions in spine size following deprivation. Furthermore, inhibitory synaptic transmission, which gates experience-dependent plasticity at the circuit level, was diminished in the absence of adolescent oligodendrogenesis. These results establish a critical role for oligodendrocytes in shaping the maturation and stabilization of cortical circuits and support the concept of developmental myelination acting as a functional brake on neuronal plasticity.

Topics & Concepts

NeuroscienceMyelinVisual cortexPlasticityNeuroplasticityBiologyCortex (anatomy)Central nervous systemPhysicsThermodynamicsNeurogenesis and neuroplasticity mechanismsAxon Guidance and Neuronal SignalingNeuroscience and Neuropharmacology Research
Oligodendrocytes and myelin limit neuronal plasticity in visual cortex | Litcius