Neuron-Glia Communication

In the past neuronal ensembles were considered the only substrate of cognition. Neurons are known as excitable nerve cells because of their capacity to evoke action potentials, leading to the release of neurotransmitters and promoting synaptic connectivity. However, neuroglia is the dominant group of nerve cells, but action potentials are absent. This was the main reason to consider neuroglia as non-excitable, restricting its function to regulate brain homeostasis. Neuroglia includes astroglia, oligodendroglia and microglia; all of them express ionic channels, as well as neurotransmitter receptors and transporters. This allows glial cells to respond to synaptic and extrasynaptic communication. Indeed, glial cells responses involve ionic fluctuations and intracellular signaling with second messengers, leading to gliotransmitters release and modulation of neuronal activity. Overall, these events define glial excitability and its dysfunction begins to be investigated in neuropathology