Mapping how neurons control their activity in the brain
There are 10 times as many neurons in your brain as there are people on the planet. It’s, therefore, understandably difficult to map these nerve cells. Researchers now take on this challenge by focusing on a group that reduce the activity of other neurons, namely inhibitory neurons. Using large-scale electron microscopy, they mapped inhibitory neurons called chandelier cells, which make connections called synapses with pyramidal neurons, in part of the mouse brain responsible for vision. The images were reconstructed into 3D models (pictured), which were used to help simulate the effects of chandelier cell (red) synapses on the activity of pyramidal neurons (grey). They found a particular type of synapse, axo-axonic synapses, were especially effective at reducing the activity of pyramidal neurons that were simultaneously being stimulated and inhibited. This comprehensive mapping sheds light on how neurons control their activity in the brain.
BPoD stands for Biomedical Picture of the Day. Managed by the MRC London Institute of Medical Sciences the website aims to engage everyone, young and old, in the wonders of biomedicine. Images are kindly provided for inclusion on this website through the generosity of scientists across the globe.
BPoD is also available in Catalan at www.bpod.cat with translations by the University of Valencia.