Scientific Reports (Apr 2022)

Bursting of excitatory cells is linked to interictal epileptic discharge generation in humans

  • Katharina T. Hofer,
  • Ágnes Kandrács,
  • Kinga Tóth,
  • Boglárka Hajnal,
  • Virág Bokodi,
  • Estilla Zsófia Tóth,
  • Loránd Erőss,
  • László Entz,
  • Attila G. Bagó,
  • Dániel Fabó,
  • István Ulbert,
  • Lucia Wittner

DOI
https://doi.org/10.1038/s41598-022-10319-4
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 17

Abstract

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Abstract Knowledge about the activity of single neurons is essential in understanding the mechanisms of synchrony generation, and particularly interesting if related to pathological conditions. The generation of interictal spikes—the hypersynchronous events between seizures—is linked to hyperexcitability and to bursting behaviour of neurons in animal models. To explore its cellular mechanisms in humans we investigated the activity of clustered single neurons in a human in vitro model generating both physiological and epileptiform synchronous events. We show that non-epileptic synchronous events resulted from the finely balanced firing of excitatory and inhibitory cells, which was shifted towards an enhanced excitability in epileptic tissue. In contrast, interictal-like spikes were characterised by an asymmetric overall neuronal discharge initiated by excitatory neurons with the presumptive leading role of bursting pyramidal cells, and possibly terminated by inhibitory interneurons. We found that the overall burstiness of human neocortical neurons is not necessarily related to epilepsy, but the bursting behaviour of excitatory cells comprising both intrinsic and synaptically driven bursting is clearly linked to the generation of epileptiform synchrony.