Estrogenic control of reward prediction errors and reinforcement learning.
bioRxiv
; 2024 Sep 25.
Article
em En
| MEDLINE
| ID: mdl-38105956
ABSTRACT
Gonadal hormones act throughout the brain 1 , and neuropsychiatric disorders vary in symptom severity over the reproductive cycle, pregnancy, and perimenopause 2-4 . Yet how hormones influence cognitive processes is unclear. Exogenous 17 ß -estradiol modulates dopamine signaling in the nucleus accumbens core (NAcc) 5,6 , which instantiates reward prediction errors (RPEs) for reinforcement learning 7-16 . Here we show that endogenous 17 ß -estradiol enhances RPEs and sensitivity to previous rewards by reducing dopamine reuptake proteins in the NAcc. Rats performed a task with different reward states; they adjusted how quickly they initiated trials across states, balancing effort against expected rewards. NAcc dopamine reflected RPEs that predicted and causally influenced initiation times. Elevated endogenous 17 ß -estradiol increased sensitivity to reward states by enhancing dopaminergic RPEs in the NAcc. Proteomics revealed reduced dopamine transporter expression. Finally, knockdown of midbrain estrogen receptors suppressed reinforcement learning. 17 ß -estradiol therefore controls RPEs via dopamine reuptake, mechanistically revealing how hormones influence neural dynamics for motivation and learning.
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MEDLINE
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En
Ano de publicação:
2024
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Article