Structural connections between the noradrenergic and cholinergic system shape the dynamics of functional brain networks
0301 basic medicine
Neuromodulation
Cholinergic Agents
Brain
Neurosciences. Biological psychiatry. Neuropsychiatry
Magnetic Resonance Imaging
Article
Diffusion MRI
Basal nucleus of Meynert
03 medical and health sciences
Attractor landscape
Basal Nucleus of Meynert
Locus coeruleus
Humans
Locus Coeruleus
RC321-571
DOI:
10.1016/j.neuroimage.2022.119455
Publication Date:
2022-07-07T03:42:20Z
AUTHORS (9)
ABSTRACT
Complex cognitive abilities are thought to arise from the ability of the brain to adaptively reconfigure its internal network structure as a function of task demands. Recent work has suggested that this inherent flexibility may in part be conferred by the widespread projections of the ascending arousal systems. While the different components of the ascending arousal system are often studied in isolation, there are anatomical connections between neuromodulatory hubs that we hypothesise are crucial for mediating key features of adaptive network dynamics, such as the balance between integration and segregation. To test this hypothesis, we estimated the strength of structural connectivity between key hubs of the noradrenergic and cholinergic arousal systems (the locus coeruleus [LC] and nucleus basalis of Meynert [nbM], respectively). We then asked whether the strength of structural LC and nbM inter-connectivity was related to individual differences in the emergent, dynamical signatures of functional integration measured from resting state fMRI data, such as network and attractor topography. We observed a significant positive relationship between the strength of white-matter connections between the LC and nbM and the extent of network-level integration following BOLD signal peaks in LC relative to nbM activity. In addition, individuals with denser white-matter streamlines interconnecting neuromodulatory hubs also demonstrated a heightened ability to shift to novel brain states. These results suggest that individuals with stronger structural connectivity between the noradrenergic and cholinergic systems have a greater capacity to mediate the flexible network dynamics required to support complex, adaptive behaviour. Furthermore, our results highlight the underlying static features of the neuromodulatory hubs can impose some constraints on the dynamic features of the brain.
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