Frontiers in Neural Circuits (Apr 2021)

A Hypothesis for Theta Rhythm Frequency Control in CA1 Microcircuits

  • Frances K. Skinner,
  • Frances K. Skinner,
  • Frances K. Skinner,
  • Scott Rich,
  • Anton R. Lunyov,
  • Jeremie Lefebvre,
  • Alexandra P. Chatzikalymniou,
  • Alexandra P. Chatzikalymniou

DOI
https://doi.org/10.3389/fncir.2021.643360
Journal volume & issue
Vol. 15

Abstract

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Computational models of neural circuits with varying levels of biophysical detail have been generated in pursuit of an underlying mechanism explaining the ubiquitous hippocampal theta rhythm. However, within the theta rhythm are at least two types with distinct frequencies associated with different behavioral states, an aspect that must be considered in pursuit of these mechanistic explanations. Here, using our previously developed excitatory-inhibitory network models that generate theta rhythms, we investigate the robustness of theta generation to intrinsic neuronal variability by building a database of heterogeneous excitatory cells and implementing them in our microcircuit model. We specifically investigate the impact of three key “building block” features of the excitatory cell model that underlie our model design: these cells' rheobase, their capacity for post-inhibitory rebound, and their spike-frequency adaptation. We show that theta rhythms at various frequencies can arise dependent upon the combination of these building block features, and we find that the speed of these oscillations are dependent upon the excitatory cells' response to inhibitory drive, as encapsulated by their phase response curves. Taken together, these findings support a hypothesis for theta frequency control that includes two aspects: (i) an internal mechanism that stems from the building block features of excitatory cell dynamics; (ii) an external mechanism that we describe as “inhibition-based tuning” of excitatory cell firing. We propose that these mechanisms control theta rhythm frequencies and underlie their robustness.

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