Nature Communications (Jul 2024)

Beta activity in human anterior cingulate cortex mediates reward biases

  • Jiayang Xiao,
  • Joshua A. Adkinson,
  • John Myers,
  • Anusha B. Allawala,
  • Raissa K. Mathura,
  • Victoria Pirtle,
  • Ricardo Najera,
  • Nicole R. Provenza,
  • Eleonora Bartoli,
  • Andrew J. Watrous,
  • Denise Oswalt,
  • Ron Gadot,
  • Adrish Anand,
  • Ben Shofty,
  • Sanjay J. Mathew,
  • Wayne K. Goodman,
  • Nader Pouratian,
  • Xaq Pitkow,
  • Kelly R. Bijanki,
  • Benjamin Hayden,
  • Sameer A. Sheth

DOI
https://doi.org/10.1038/s41467-024-49600-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

Read online

Abstract The rewards that we get from our choices and actions can have a major influence on our future behavior. Understanding how reward biasing of behavior is implemented in the brain is important for many reasons, including the fact that diminution in reward biasing is a hallmark of clinical depression. We hypothesized that reward biasing is mediated by the anterior cingulate cortex (ACC), a cortical hub region associated with the integration of reward and executive control and with the etiology of depression. To test this hypothesis, we recorded neural activity during a biased judgment task in patients undergoing intracranial monitoring for either epilepsy or major depressive disorder. We found that beta (12–30 Hz) oscillations in the ACC predicted both associated reward and the size of the choice bias, and also tracked reward receipt, thereby predicting bias on future trials. We found reduced magnitude of bias in depressed patients, in whom the beta-specific effects were correspondingly reduced. Our findings suggest that ACC beta oscillations may orchestrate the learning of reward information to guide adaptive choice, and, more broadly, suggest a potential biomarker for anhedonia and point to future development of interventions to enhance reward impact for therapeutic benefit.