10.6078/D1W973
Berry, Anne
0000-0002-5086-3643
University of California, Berkeley
The influence of dopamine on cognitive flexibility is mediated by
functional connectivity in young but not older adults
Dryad
dataset
2018
2018-05-24T18:43:42Z
2018-05-24T18:43:42Z
en
https://doi.org/10.1162/jocn_a_01286
2164520 bytes
1
Creative Commons Attribution 4.0 International (CC BY 4.0)
Dopaminergic signaling in striatum is strongly implicated in executive
functions including cognitive flexibility. However, there is a paucity of
multimodal research in humans defining the nature of relationships between
endogenous dopamine, striatal network activity, and cognition. Here, we
measured dopamine synthesis capacity in young and older adults using the
PET tracer 6-[18F]fluoro-L-m-tyrosine, and examined its relationship with
cognitive performance and functional connectivity during an fMRI study of
task switching. Aging is associated with alteration in dopamine function
including profound losses in dopamine receptors, but an apparent elevation
in dopamine synthesis. A compensatory benefit of upregulated dopamine
synthesis in aging has not been established. Across young and older
adults, we found that cognitive flexibility (low behavioral switch cost)
was associated with stronger task-related functional connectivity within
canonical fronto-striato-thalamic circuits connecting left inferior
frontal gyrus, dorsal caudate nucleus (DCA) and ventral lateral/ventral
anterior thalamic nuclei. In young adults, functional connectivity
mediated the influence of DCA dopamine synthesis capacity on switch cost.
For older adults, these relationships were modified such that DCA
synthesis capacity and connectivity interacted to influence switch cost.
Older adults with most elevated synthesis capacity maintained the pattern
of connectivity-cognition relationships observed in youth, whereas these
relationships were not evident for low synthesis older adults. Together,
these findings suggest a role of dopamine in tuning striatal circuits to
benefit executive function in young adults, and clarify the functional
impact of elevated dopamine synthesis capacity in aging.