News Release

Oligodendrocyte selectively myelinates a particular set of axons in the white matter

Peer-Reviewed Publication

National Institutes of Natural Sciences

Some Oligodendrocytes Selectively Myelinate Axons from a Particular Brain Region

image: The research group established a novel method for detecting the axons myelinated by a single oligodendrocyte. This method uses three kinds of viral vectors to label axons derived from multiple brain regions and oligodendrocytes in the white matter. Using this method, they found that some populations of oligodendrocytes in the corpus callosum selectively myelinated axons derived from motor cortex or sensory cortex. Moreover, the newly established method is a versatile tool for analyzing precise morphology of each oligodendrocyte in animal models of demyelinating disorders and addressing the role of oligodendrocyte in higher brain functions. view more 

Credit: NIPS/NINS

There are three kinds of glial cells in the brain, oligodendrocyte, astrocyte and microglia. Oligodendrocytes myelinate neuronal axons to increase conduction velocity of neuronal impulses. A Japanese research team in National Institute for Physiological Sciences (NIPS, Okazaki, Aichi, Japan) finds a characteristic feature of oligodendrocytes that selectively myelinate a particular set of neuronal axons.

It is known that maturation of oligodendrocyte is necessary for motor skill learning. The structure of the white matter changes after motor skill learning (e.g., juggling or playing piano). These reports suggest that a single oligodendrocytes selectively myelinate a particular set of axons. In addition, oligodendrocyte dysfunction causes severe neurological disorders, such as multiple sclerosis. So, better understanding of interaction between oligodendrocytes and neuronal axons is highly desired. However, it was difficult to identify interaction between oligodendrocyte and neuronal axons in the brain because the high density of oligodendrocytes in the white matter prevents us from detecting precise morphology of each oligodendrocyte.

The Japanese research group in NIPS found one of the viral vectors labels single oligodendrocytes in the white matter. Using multiple viral vector injections, neuronal axons derived from distinct brain region (motor cortex or sensory cortex) and oligodendrocytes in the white matter were simultaneously labeled. Surprisingly, the research group found that oligodendrocyte did not just ensheath axons randomly, but some oligodendrocytes selectively myelinated axons from a particular brain region.

This method developed by the research group can be available for demyelinating animal model to assess demyelinating diseases. "Now, we plan to analyze oligodendrocyte morphology and myelination in demyelinating mouse models" corresponding author Dr. Shimizu says. "Furthermore, axon selective myelination for a specific neuronal subtype found in this study encourages us to investigate physiological relevance of multiple myelination to higher brain function."

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