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NMDA attenuates the neurovascular response to hypercapnia in the neonatal cerebral cortex.

Gábor RemzsőJános NémethValéria Tóth-SzűkiViktória VargaViktória KovácsFerenc Domoki
Published in: Scientific reports (2019)
Cortical spreading depolarization (SD) involves activation of NMDA receptors and elicit neurovascular unit dysfunction. NMDA cannot trigger SD in newborns, thus its effect on neurovascular function is not confounded by other aspects of SD. The present study investigated if NMDA affected hypercapnia-induced microvascular and electrophysiological responses in the cerebral cortex of newborn pigs. Anesthetized piglets were fitted with cranial windows over the parietal cortex to study hemodynamic and electrophysiological responses to graded hypercapnia before/after topically applied NMDA assessed with laser-speckle contrast imaging and recording of local field potentials (LFP)/neuronal firing, respectively. NMDA increased cortical blood flow (CoBF), suppressed LFP power in most frequency bands but evoked a 2.5 Hz δ oscillation. The CoBF response to hypercapnia was abolished after NMDA and the hypercapnia-induced biphasic changes in δ and θ LFP power were also altered. MK-801 prevented NMDA-induced increases in CoBF and the attenuation of microvascular reactivity to hypercapnia. The neuronal nitric oxide synthase (nNOS) inhibitor (N-(4 S)-4-amino-5-[aminoethyl]aminopentyl-N'-nitroguanidin) also significantly preserved the CoBF response to hypercapnia after NMDA, although it didn't reduce NMDA-induced increases in CoBF. In conclusion, excess activation of NMDA receptors alone can elicit SD-like neurovascular unit dysfunction involving nNOS activity.
Keyphrases
  • high glucose
  • nitric oxide synthase
  • blood flow
  • diabetic rats
  • nitric oxide
  • functional connectivity
  • drug induced
  • magnetic resonance imaging
  • computed tomography
  • brain injury
  • contrast enhanced