17β-estradiol replacement in ovariectomized female rats slows set 1 dorsolateral striatial-dependent learning and enhances learning of set 2 in an extradimensional set-shifting paradigm

Behavioral Neuroscience
Olga LipatovaDonna J Toufexis

Abstract

The role of estrogen in extradimensional set-shifting was evaluated with replacement of 17β-estradiol (E2) in ovariectomized (OVX) female rats. Rats were reinforced with food when they entered an arm of a plus-maze that was distinguished by visual and/or tactile cues (Set 1). In Set 2, reinforcement was shifted to construct a new association between food and visual/tactile cues that were different from Set 1. The purpose of using this extradimensional set-shifting task was to differentiate the effect of acute or continuous E2 on the dorsolateral (DLS) versus dorsomedial (DMS) striatum and medial prefrontal cortex (mPFC), because Set 1 and 2 learning, respectively, are associated with these particular brain regions. Results showed that compared to controls, acute E2-replaced female rats required more training trials to reach criterion in Set 1. Moreover, E2-replaced females showed a significant delay in the rate of acquisition of Set 1 learning compared to controls. In Set 2 there were no group differences in perseverative errors, which are reduced by mPFC activation, or when learning took place in a previously reinforced arm, a DMS-mediated effect. Despite this, control females required more training trials to learn Set 2 compa...Continue Reading

Citations

Apr 14, 2020·Expert Opinion on Pharmacotherapy·Guido K W Frank
Mar 2, 2021·Frontiers in Behavioral Neuroscience·Jarid Goodman
May 14, 2021·Climacteric : the Journal of the International Menopause Society·A V Prakapenka, D L Korol

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