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Multimodal evidence for delayed threat extinction learning in adolescence and young adulthood

Multimodal evidence for delayed threat extinction learning in adolescence and young adulthood
Multimodal evidence for delayed threat extinction learning in adolescence and young adulthood
Previous research in rodents and humans points to an evolutionarily conserved profile of blunted threat extinction learning during adolescence, underpinned by brain structures such as the amygdala and medial prefrontal cortex (mPFC). In this study, we examine age-related effects on the function and structural connectivity of this system in threat extinction learning in adolescence and young adulthood. Younger age was associated with greater amygdala activity and later engagement of the mPFC to learned threat cues as compared to safety cues. Furthermore, greater structural integrity of the uncinate fasciculus, a white matter tract that connects the amygdala and mPFC, mediated the relationship between age and mPFC engagement during extinction learning. These findings suggest that age-related changes in the structure and function of amygdala-mPFC circuitry may underlie the protracted maturation of threat regulatory processes.
2045-2322
Morriss, Jayne
a6005806-07cf-4283-8766-900003a7306f
Christakou, Anastasia
85966991-a0f2-43b5-b6dc-312f185246bc
Van Reekum, Carien M
56010ab6-5a14-4c5a-b463-eb2159b3684c
Morriss, Jayne
a6005806-07cf-4283-8766-900003a7306f
Christakou, Anastasia
85966991-a0f2-43b5-b6dc-312f185246bc
Van Reekum, Carien M
56010ab6-5a14-4c5a-b463-eb2159b3684c

Morriss, Jayne, Christakou, Anastasia and Van Reekum, Carien M (2019) Multimodal evidence for delayed threat extinction learning in adolescence and young adulthood. Scientific Reports, 9 (1), [7748]. (doi:10.1038/s41598-019-44150-1).

Record type: Article

Abstract

Previous research in rodents and humans points to an evolutionarily conserved profile of blunted threat extinction learning during adolescence, underpinned by brain structures such as the amygdala and medial prefrontal cortex (mPFC). In this study, we examine age-related effects on the function and structural connectivity of this system in threat extinction learning in adolescence and young adulthood. Younger age was associated with greater amygdala activity and later engagement of the mPFC to learned threat cues as compared to safety cues. Furthermore, greater structural integrity of the uncinate fasciculus, a white matter tract that connects the amygdala and mPFC, mediated the relationship between age and mPFC engagement during extinction learning. These findings suggest that age-related changes in the structure and function of amygdala-mPFC circuitry may underlie the protracted maturation of threat regulatory processes.

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Published date: 23 May 2019
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Identifiers

Local EPrints ID: 472474
URI: http://eprints.soton.ac.uk/id/eprint/472474
DOI: doi:10.1038/s41598-019-44150-1
ISSN: 2045-2322
PURE UUID: 7d90e009-be2a-446c-bbe9-148def40c971
ORCID for Jayne Morriss: ORCID iD orcid.org/0000-0002-7928-9673

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Date deposited: 06 Dec 2022 17:37
Last modified: 17 Mar 2024 04:14

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Contributors

Author: Jayne Morriss ORCID iD
Author: Anastasia Christakou
Author: Carien M Van Reekum

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