Spontaneous Release Regulates Synaptic Scaling in the Embryonic Spinal Network In Vivo.
Miguel Angel Garcia-BereguiainCarlos E Gonzalez-IslasCasie LindslyPeter WennerPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
Homeostatic synaptic scaling is thought to prevent inappropriate levels of spiking activity through compensatory adjustments in the strength of synaptic inputs. Therefore, it is thought that perturbations in spike rate trigger scaling. Here, we find that dramatic changes in spiking activity in the embryonic spinal cord have little effect on synaptic scaling; conversely, alterations in GABAA receptor activation due to action-potential-independent GABA vesicle release can trigger scaling. The findings suggest that scaling in the living embryonic spinal cord functions to maintain synaptic strength and challenge the view that scaling acts to regulate spiking activity homeostatically. Finally, the results indicate that fetal exposure to drugs that influence GABA spontaneous release, such as nicotine, could profoundly affect synaptic maturation.