Nature Communications (Oct 2023)

The medial septum controls hippocampal supra-theta oscillations

  • Bálint Király,
  • Andor Domonkos,
  • Márta Jelitai,
  • Vítor Lopes-dos-Santos,
  • Sergio Martínez-Bellver,
  • Barnabás Kocsis,
  • Dániel Schlingloff,
  • Abhilasha Joshi,
  • Minas Salib,
  • Richárd Fiáth,
  • Péter Barthó,
  • István Ulbert,
  • Tamás F. Freund,
  • Tim J. Viney,
  • David Dupret,
  • Viktor Varga,
  • Balázs Hangya

DOI
https://doi.org/10.1038/s41467-023-41746-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 25

Abstract

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Abstract Hippocampal theta oscillations orchestrate faster beta-to-gamma oscillations facilitating the segmentation of neural representations during navigation and episodic memory. Supra-theta rhythms of hippocampal CA1 are coordinated by local interactions as well as inputs from the entorhinal cortex (EC) and CA3 inputs. However, theta-nested gamma-band activity in the medial septum (MS) suggests that the MS may control supra-theta CA1 oscillations. To address this, we performed multi-electrode recordings of MS and CA1 activity in rodents and found that MS neuron firing showed strong phase-coupling to theta-nested supra-theta episodes and predicted changes in CA1 beta-to-gamma oscillations on a cycle-by-cycle basis. Unique coupling patterns of anatomically defined MS cell types suggested that indirect MS-to-CA1 pathways via the EC and CA3 mediate distinct CA1 gamma-band oscillations. Optogenetic activation of MS parvalbumin-expressing neurons elicited theta-nested beta-to-gamma oscillations in CA1. Thus, the MS orchestrates hippocampal network activity at multiple temporal scales to mediate memory encoding and retrieval.