Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats

Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats

Hippocampal (HPC) theta oscillations have long been linked to various functions of the brain. Many cortical and subcortical areas that also exhibit theta oscillations have been linked to functional circuits with the hippocampus on the basis of coupled activities at theta frequencies. We examine, in...

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Bibliographic Details
Main Authors: Ming Ruan, Calvin K. Young, Neil McNaughton
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-09-01
Series:Frontiers in Neural Circuits
Subjects:
theta oscillation
hippocampus
septum
supramammillary nucleus
mammillary bodies
granger causality
Online Access:http://journal.frontiersin.org/article/10.3389/fncir.2017.00062/full
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spelling doaj-af09ef3fc6b64fb49cd1acfab017c40d2020-11-24T22:33:33ZengFrontiers Media S.A.Frontiers in Neural Circuits1662-51102017-09-011110.3389/fncir.2017.00062286883Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving RatsMing Ruan0Ming Ruan1Calvin K. Young2Neil McNaughton3Department of Psychology and Brain Health Research Centre, University of OtagoDunedin, New ZealandDepartment of Pediatrics and Neonatal Services, Zhuhai Municipal Women’s and Children’s HospitalGuangdong, ChinaDepartment of Psychology and Brain Health Research Centre, University of OtagoDunedin, New ZealandDepartment of Psychology and Brain Health Research Centre, University of OtagoDunedin, New ZealandHippocampal (HPC) theta oscillations have long been linked to various functions of the brain. Many cortical and subcortical areas that also exhibit theta oscillations have been linked to functional circuits with the hippocampus on the basis of coupled activities at theta frequencies. We examine, in freely moving rats, the characteristics of diencephalic theta local field potentials (LFPs) recorded in the supramammillary/mammillary (SuM/MM) areas that are bi-directionally connected to the HPC through the septal complex. Using partial directed coherence (PDC), we find support for previous suggestions that SuM modulates HPC theta at higher frequencies. We find weak separation of SuM and MM by dominant theta frequency recorded locally. Contrary to oscillatory cell activities under anesthesia where SuM is insensitive, but MM is sensitive to medial septal (MS) inactivation, theta LFPs persisted and became indistinguishable after MS-inactivation. However, MS-inactivation attenuated SuM/MM theta power, while increasing the frequency of SuM/MM theta. MS-inactivation also reduced root mean squared power in both HPC and SuM/MM equally, but reduced theta power differentially in the time domain. We provide converging evidence that SuM is preferentially involved in coding HPC theta at higher frequencies, and that the MS-HPC circuit normally imposes a frequency-limiting modulation over the SuM/MM area as suggested by cell-based recordings in anesthetized animals. In addition, we provide evidence that the postulated SuM-MS-HPC-MM circuit is under complex bi-directional control, rather than SuM and MM having roles as unidirectional relays in the network.http://journal.frontiersin.org/article/10.3389/fncir.2017.00062/fulltheta oscillationhippocampusseptumsupramammillary nucleusmammillary bodiesgranger causality
collection DOAJ
language English
format Article
sources DOAJ
author Ming Ruan
Ming Ruan
Calvin K. Young
Neil McNaughton
spellingShingle Ming Ruan
Ming Ruan
Calvin K. Young
Neil McNaughton
Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
Frontiers in Neural Circuits
theta oscillation
hippocampus
septum
supramammillary nucleus
mammillary bodies
granger causality
author_facet Ming Ruan
Ming Ruan
Calvin K. Young
Neil McNaughton
author_sort Ming Ruan
title Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
title_short Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
title_full Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
title_fullStr Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
title_full_unstemmed Bi-Directional Theta Modulation between the Septo-Hippocampal System and the Mammillary Area in Free-Moving Rats
title_sort bi-directional theta modulation between the septo-hippocampal system and the mammillary area in free-moving rats
publisher Frontiers Media S.A.
series Frontiers in Neural Circuits
issn 1662-5110
publishDate 2017-09-01
description Hippocampal (HPC) theta oscillations have long been linked to various functions of the brain. Many cortical and subcortical areas that also exhibit theta oscillations have been linked to functional circuits with the hippocampus on the basis of coupled activities at theta frequencies. We examine, in freely moving rats, the characteristics of diencephalic theta local field potentials (LFPs) recorded in the supramammillary/mammillary (SuM/MM) areas that are bi-directionally connected to the HPC through the septal complex. Using partial directed coherence (PDC), we find support for previous suggestions that SuM modulates HPC theta at higher frequencies. We find weak separation of SuM and MM by dominant theta frequency recorded locally. Contrary to oscillatory cell activities under anesthesia where SuM is insensitive, but MM is sensitive to medial septal (MS) inactivation, theta LFPs persisted and became indistinguishable after MS-inactivation. However, MS-inactivation attenuated SuM/MM theta power, while increasing the frequency of SuM/MM theta. MS-inactivation also reduced root mean squared power in both HPC and SuM/MM equally, but reduced theta power differentially in the time domain. We provide converging evidence that SuM is preferentially involved in coding HPC theta at higher frequencies, and that the MS-HPC circuit normally imposes a frequency-limiting modulation over the SuM/MM area as suggested by cell-based recordings in anesthetized animals. In addition, we provide evidence that the postulated SuM-MS-HPC-MM circuit is under complex bi-directional control, rather than SuM and MM having roles as unidirectional relays in the network.
topic theta oscillation
hippocampus
septum
supramammillary nucleus
mammillary bodies
granger causality
url http://journal.frontiersin.org/article/10.3389/fncir.2017.00062/full
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