4.5 Article

Alpha2-Containing Glycine Receptors Promote Neonatal Spontaneous Activity of Striatal Medium Spiny Neurons and Support Maturation of Glutamatergic Inputs

Journal

FRONTIERS IN MOLECULAR NEUROSCIENCE
Volume 11, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fnmol.2018.00380

Keywords

autism spectrum disorders; dorsal striatum; medium spiny neurons; glycine receptors; spontaneous activity; synaptic development

Categories

Funding

  1. Interuniversity Attraction Pole from Belgian Science Policy Office (BELSPO) [IAP - P7/10]
  2. FRS-FNRS
  3. FMRE-Belgium
  4. Medical Research Council [G0500833]
  5. FWO [1519516N]
  6. UHasselt general funding
  7. King Baudouin Foundation
  8. Rotary price Hope in Head, Opening the Future (KU Leuven funds), VIB, ERA-NET NEURON
  9. MRC [G0500833, MR/J004049/1, MR/M013502/1] Funding Source: UKRI

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Glycine receptors (GlyRs) containing the alpha 2 subunit are highly expressed in the developing brain, where they regulate neuronal migration and maturation, promote spontaneous network activity and subsequent development of synaptic connections. Mutations in GLRA2 are associated with autism spectrum disorder, but the underlying pathophysiology is not described yet. Here, using Glra2-knockout mice, we found a GIyR-dependent effect on neonatal spontaneous activity of dorsal striatum medium spiny neurons (MSNs) and maturation of the incoming glutamatergic innervation. Our data demonstrate that functional GlyRs are highly expressed in MSNs of one-week-old mice, but they do not generate endogenous chloride-mediated tonic or phasic current. Despite of that, knocking out the Glra2 severely affects the shape of action potentials and impairs spontaneous activity and the frequency of miniature AMPA receptor-mediated currents in MSNs. This reduction in spontaneous activity and glutamatergic signaling can attribute to the observed changes in neonatal behavioral phenotypes as seen in ultrasonic vocalizations and righting reflex. In adult G/ra2-knockout animals, the glutamatergic synapses in MSNs remain functionally underdeveloped. The number of glutamatergic synapses and release probability at presynaptic site remain unaffected, but the amount of postsynaptic AMPA receptors is decreased. This deficit is a consequence of impaired development of the neuronal circuitry since acute inhibition of GlyRs by strychnine in adult MSNs does not affect the properties of glutamatergic synapses. Altogether, these results demonstrate that GIyR-mediated signaling supports neonatal spontaneous MSN activity and, in consequence, promotes the functional maturation of glutamatergic synapses on MSNs. The described mechanism might shed light on the pathophysiological mechanisms in GLRA2-linked autism spectrum disorder cases.

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