@article{c0be1456678541f09684631fa0d6265d,
title = "A role for GABA in the modulation of striatal and hippocampal systems under stress",
abstract = "Previous research has demonstrated that stress modulates the competitive interaction between the hippocampus and striatum, two structures known to be critically involved in motor sequence learning. These earlier investigations, however, have largely focused on blood oxygen-level dependent (BOLD) responses. No study to date has examined the link between stress, motor learning and levels of striatal and hippocampal gamma-aminobutyric acid (GABA). This knowledge gap is surprising given the known role of GABA in neuroplasticity subserving learning and memory. The current study thus examined: a) the effects of motor learning and stress on striatal and hippocampal GABA levels; and b) how learning- and stress-induced changes in GABA relate to the neural correlates of learning. To do so, fifty-three healthy young adults were exposed to a stressful or non-stressful control intervention before motor sequence learning. Striatal and hippocampal GABA levels were assessed at baseline and post-intervention/learning using magnetic resonance spectroscopy. Regression analyses indicated that stress modulated the link between striatal GABA levels and functional plasticity in both the hippocampus and striatum during learning as measured with fMRI. This study provides evidence for a role of GABA in the stress-induced modulation of striatal and hippocampal systems.",
author = "Nina Dolfen and Veldman, {Menno P.} and Gann, {Mareike A.} and {von Leupoldt}, Andreas and Puts, {Nicolaas A.J.} and Edden, {Richard A.E.} and Mark Mikkelsen and Stephan Swinnen and Lars Schwabe and Genevi{\`e}ve Albouy and King, {Bradley R.}",
note = "Funding Information: This work was supported by the Belgian Research Foundation Flanders (FWO; G099516N, 1524218N) and internal funds from KU Leuven. G.A. also received support from FWO (G0D7918N and G0B1419N) and Excellence of Science (EOS, 30446199, MEMODYN with S.S.). N.D., M.A.G. and M.P.V. received salary support from these grants. M.A.G. is funded by a predoctoral fellowship from F.W.O. (1141320N). Financial support for author B.R.K. was provided by the European Union{\textquoteright}s Horizon 2020 research and innovation programme under the Marie Sk{\l}odowska-Curie grant agreement (number 703490) and a postdoctoral fellowship from FWO (132635). A.v.L. was supported by FWO (GOA4516N, GOA3718N and I011320N), the Research Fund KU Leuven (AKUL/19/06) and the {\textquoteleft}Asthenes{\textquoteright} long-term structural funding Methusalem grant (METH/15/011) by the Flemish Government. This study applied tools developed from National Institutes of Health (NIH) grants R01 EB016089, R01 EB023963 and P41 EB015909; R.A.E.E. also receives salary support from these grants. M.M. receives salary support from NIH grant K99 EB028828. We thank Mathijs Franssen, Jana Vande-candelaere, Biene Ooms, Gaelle Dumont and Simon Titone for assistance with data collection. We also want to thank Celine Maes for her help with the revision of the manuscript. Publisher Copyright: {\textcopyright} 2021, The Author(s).",
year = "2021",
month = dec,
doi = "10.1038/s42003-021-02535-x",
language = "English",
volume = "4",
journal = "Communications biology",
issn = "2399-3642",
publisher = "Nature Publishing Group",
number = "1",
}