The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move

The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move

The Medial Septum and diagonal Band of Broca (MSDB) was initially studied for its role in locomotion. However, the last several decades were focussed on its intriguing function in theta rhythm generation. Early studies relied on electrical stimulation, lesions and pharmacological manipulation, and r...

Full description

Bibliographic Details
Main Authors: Petra Mocellin, Sanja Mikulovic
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-07-01
Series:Frontiers in Neural Circuits
Subjects:
MSDB
locomotion
motivation
theta
cell types
Online Access:https://www.frontiersin.org/articles/10.3389/fncir.2021.699798/full
id doaj-7c8cc96113a5417e8c8a56669ef21b8a
record_format Article
spelling doaj-7c8cc96113a5417e8c8a56669ef21b8a2021-07-22T18:19:51ZengFrontiers Media S.A.Frontiers in Neural Circuits1662-51102021-07-011510.3389/fncir.2021.699798699798The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to MovePetra Mocellin0Petra Mocellin1Sanja Mikulovic2Department of Cellular Neuroscience, Leibniz Institute for Neurobiology, Magdeburg, GermanyInternational Max Planck Research School for Brain and Behavior, Bonn, GermanyResearch Group Cognition and Emotion, Leibniz Institute for Neurobiology, Magdeburg, GermanyThe Medial Septum and diagonal Band of Broca (MSDB) was initially studied for its role in locomotion. However, the last several decades were focussed on its intriguing function in theta rhythm generation. Early studies relied on electrical stimulation, lesions and pharmacological manipulation, and reported an inconclusive picture regarding the role of the MSDB circuits. Recent studies using more specific methodologies have started to elucidate the differential role of the MSDB’s specific cell populations in controlling both theta rhythm and behaviour. In particular, a novel theory is emerging showing that different MSDB’s cell populations project to different brain regions and control distinct aspects of behaviour. While the majority of these behaviours involve movement, increasing evidence suggests that MSDB-related networks govern the motivational aspect of actions, rather than locomotion per se. Here, we review the literature that links MSDB, theta activity, and locomotion and propose open questions, future directions, and methods that could be employed to elucidate the diverse roles of the MSDB-associated networks.https://www.frontiersin.org/articles/10.3389/fncir.2021.699798/fullMSDBlocomotionmotivationthetacell types
collection DOAJ
language English
format Article
sources DOAJ
author Petra Mocellin
Petra Mocellin
Sanja Mikulovic
spellingShingle Petra Mocellin
Petra Mocellin
Sanja Mikulovic
The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
Frontiers in Neural Circuits
MSDB
locomotion
motivation
theta
cell types
author_facet Petra Mocellin
Petra Mocellin
Sanja Mikulovic
author_sort Petra Mocellin
title The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
title_short The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
title_full The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
title_fullStr The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
title_full_unstemmed The Role of the Medial Septum—Associated Networks in Controlling Locomotion and Motivation to Move
title_sort role of the medial septum—associated networks in controlling locomotion and motivation to move
publisher Frontiers Media S.A.
series Frontiers in Neural Circuits
issn 1662-5110
publishDate 2021-07-01
description The Medial Septum and diagonal Band of Broca (MSDB) was initially studied for its role in locomotion. However, the last several decades were focussed on its intriguing function in theta rhythm generation. Early studies relied on electrical stimulation, lesions and pharmacological manipulation, and reported an inconclusive picture regarding the role of the MSDB circuits. Recent studies using more specific methodologies have started to elucidate the differential role of the MSDB’s specific cell populations in controlling both theta rhythm and behaviour. In particular, a novel theory is emerging showing that different MSDB’s cell populations project to different brain regions and control distinct aspects of behaviour. While the majority of these behaviours involve movement, increasing evidence suggests that MSDB-related networks govern the motivational aspect of actions, rather than locomotion per se. Here, we review the literature that links MSDB, theta activity, and locomotion and propose open questions, future directions, and methods that could be employed to elucidate the diverse roles of the MSDB-associated networks.
topic MSDB
locomotion
motivation
theta
cell types
url https://www.frontiersin.org/articles/10.3389/fncir.2021.699798/full
work_keys_str_mv AT petramocellin theroleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
AT petramocellin theroleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
AT sanjamikulovic theroleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
AT petramocellin roleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
AT petramocellin roleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
AT sanjamikulovic roleofthemedialseptumassociatednetworksincontrollinglocomotionandmotivationtomove
_version_ 1721291104945438720

Similar Items