Friday, June 14, 2019

Learning fine motor coordination changes the brain


When we train the reaching for and grasping of objects, we also train our brain. In other words, this action brings about changes in the connections of a certain neuronal population in the red nucleus, a region of the midbrain. Researchers have discovered this group of nerve cells in the red nucleus. They have also shown how fine motor tasks promote plastic reorganization of this brain region. 

Simply grasping a coffee cup needs fine motor coordination with the highest precision. This required performance of the brain is an ability that can also be learned and trained. Prof. Kelly Tan’s research group at the Biozentrum, University of Basel, has investigated the red nucleus, a region of the midbrain that controls fine motor movement, and identified a new population of nerve cells which changes when fine motor coordination is trained. The more that grasping is practiced, the more the connections between the neurons of this group of nerve cells are strengthened.

The red nucleus, a little investigated region of the brain
Grasping is a skill that can be trained and improved, even in adults. For muscles to perform a movement correctly, brain commands must be transmitted through the spinal cord. The red nucleus, which, over the years, has received little attention in brain research, plays an important role in fine motor coordination. Here the brain learns new fine motor skills for grasping and stores what it has learned.
This shows people flexing their fingers
Our fine motor skills such as grasping are steered by the red nucleus, a region of the midbrain. 
The image is credited to University of Basel, Biozentrum.

Prof. Kelly Tan’s team has now investigated the red nucleus in more detail in the mouse model and analyzed its structure and neuronal composition. “We have found that this brain region is very heterogeneous and consists of different neuron populations,” says the first author of the study.

Improved fine motor skills through plastic changes in the brain
The research team has characterized one of these neuron populations and demonstrated that learning new grasping movements strengthens the connections between the individual neurons. “When learning new fine motor skills, the coordination of this specific movement is optimized and stored in the brain as a code,” explains Tan. “Thus, we have been able to also demonstrate neuroplasticity in the red nucleus.”

In a further step, the team now wants to investigate the stability of these strengthened nerve cell connections in the red nucleus and find out to what extent they regress when the learned fine motor movements are not practiced. The findings could also provide new insights into the understanding of Parkinson’s disease, in which affected individuals suffer from motor disorders. The team hopes to find out whether the neuronal connections in the red nucleus have also changed in these patients and to what extent fine motor training can restrengthen the neuronal network.


Excitatory rubral cells encode the acquisition of novel complex motor tasks
The red nucleus (RN) is required for limb control, specifically fine motor coordination. There is some evidence for a role of the RN in reaching and grasping, mainly from lesion studies, but results so far have been inconsistent. In addition, the role of RN neurons in such learned motor functions at the level of synaptic transmission has been largely neglected. Here, we show that Vglut2-expressing RN neurons undergo plastic events and encode the optimization of fine movements. RN light-ablation severely impairs reaching and grasping functions while sparing general locomotion. We identify a neuronal population co-expressing Vglut2, PV and C1QL2, which specifically undergoes training-dependent plasticity. Selective chemo-genetic inhibition of these neurons perturbs reaching and grasping skills. Our study highlights the role of the Vglut2-positive rubral population in complex fine motor tasks, with its related plasticity representing an important starting point for the investigation of mechanistic substrates of fine motor coordination training.



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