The formation of myelin sheaths around nerve fibres

14th February 2018
Posted By : Enaie Azambuja
The formation of myelin sheaths around nerve fibres

Nerve fibres are surrounded by a myelin sheath. Scientists at the Technical University of Munich (TUM) have now made the first-ever 'live' observations of how this protective layer is formed. The team discovered that the characteristic patterns of the myelin layer are determined at an early stage. However, these patterns can be adjusted as needed in a process apparently controlled by the nerve cells themselves.

The myelin sheath surrounding the axons, or nerve fibres, can be compared to the insulation covering an electric wire. Without it, the rapid propagation of electric signals would not be possible. Damage to this insulating layer, for example from illnesses such as multiple sclerosis, may result in serious impairments.

But myelin does not form a continuous coating along the axon. Instead, it is divided into segments. These can vary in length and are separated by gaps known as nodes of Ranvier. For the complex network of the central nervous system to function properly, the speed of the connections is not the only consideration.

The crucial factor is the fine tuning: the signals have to reach the right place at exactly the right time. The transmission speed of information through an axon is partly determined by the number and length of the segments.

The bodies of humans and animals have the ability – at least to some extent – to repair damaged myelin sheaths. Dr. Tim Czopka, a neuroscientist at TUM, has succeeded in making the first-ever "live" observations of this process. Czopka and his team used newly developed markers to visualise the formation myelin segments surrounding axons in the spinal cord of zebrafish.

They concluded: Characteristic patterns made up of myelin segments with different lengths along an axon are defined within a few days after myelin formation begins. Although the segments continue growing from that time onward – as the body of the zebrafish grows – the pattern remains preserved.

Following this observation, the researchers destroyed selected segments. “What happened next surprised us,” says Tim Czopka. “After the destruction of the segments, the myelin sheaths began to dynamically remodel.

In the end, the damage was repaired and in most cases the original pattern was restored.” The regeneration followed a fixed sequence: First, the adjacent segments expanded to close the gap. A new segment then formed between them, and they contracted to their original size.

This raises an important question: Who controls the emergence and the restoration of the segment pattern? “Our observations suggest that it is not the oligodendrocytes – the cells that form myelin – that decide where it is formed, but rather the axons,” says Tim Czopka. “You could say that they know best which pattern is needed for the signals to be transmitted at optimal speed.”

The team is now studying how the segment patterns are affected by the targeted stimulation of nerve cell activity and by the neurotransmitters released as a result.

“If we can understand the role of the axons in myelin generation and remodelling, it may yield new approaches to controlling it,” explains Czopka. “That would be relevant for the treatment of illnesses such as multiple sclerosis.”


Discover more here.

Image credit: TUM.


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