Robert M Brock scite author profile

The development of neuronal circuitry required for cognition, complex motor behaviors, and sensory integration requires myelination. The role of glial cells such as astrocytes and microglia in shaping synapses and circuits have been covered in other reviews in this journal and elsewhere. This review summarizes the role of another glial cell type, oligodendrocytes, in shaping synapse formation, neuronal circuit development, and myelination in both normal development and in demyelinating disease. Oligodendrocytes ensheath and insulate neuronal axons with myelin, and this facilitates fast conduction of electrical nerve impulses via saltatory conduction. Oligodendrocytes also proliferate during postnatal development, and defects in their maturation have been linked to abnormal myelination. Myelination also regulates the timing of activity in neural circuits and is important for maintaining the health of axons and providing nutritional support. Recent studies have shown that dysfunction in oligodendrocyte development and in myelination can contribute to defects in neuronal synapse formation and circuit development. We discuss glutamatergic and GABAergic receptors and voltage gated ion channel expression and function in oligodendrocyte development and myelination. We explain the role of excitatory and inhibitory neurotransmission on oligodendrocyte proliferation, migration, differentiation, and myelination. We then focus on how our understanding of the synaptic connectivity between neurons and OPCs can inform future therapeutics in demyelinating disease, and discuss gaps in the literature that would inform new therapies for remyelination.

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Neuronal Activity Alters Neuron to OPC Synapses

Moura

Parvathaneni

Sahagun

et al. 2022

Preprint

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The mechanisms that drive the timing and specificity of oligodendrocyte myelination during development, or remyelination after injury or immune attack are not well understood. Recent work has shown that oligodendrocyte progenitors receive synapses from neurons, providing a potential mechanism for neuronal-glial communication. We hypothesize that these connections are important both for correct myelination of neurons during development and for myelination during neuronal plasticity. We utilized chemogenetic tools and viral monosynaptic circuit tracing to analyze these neuroglial connections and to examine OPC proliferation, myelination, synapse formation, and neuronal-glial connectivity after increasing or decreasing neuronal activity in vivo. We found that increasing neuronal activity increased OPC activation, but not proliferation. We also found that altering neuronal activity altered neuronal-glial synaptic connections: while it did not impact the total number of neuronal inputs, or the number of inhibitory neuronal inputs, it did alter the number of excitatory neuron to OPC connections. We also found that increasing or decreasing neuronal activity impacted the ratio of excitatory and inhibitory synapses. Our data show that neuronal activity affects OPC activation, neuronal synapse formation onto OPCs, as well as the types of neuronal inputs to OPCs, indicating that neuronal activity is important for OPC circuit composition and function.

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Robert M Brock

Neuron to Oligodendrocyte Precursor Cell Synapses: Protagonists in Oligodendrocyte Development and Myelination, and Targets for Therapeutics

Neuronal Activity Alters Neuron to OPC Synapses

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