Parietal Neurons Encode Expected Gains in Instrumental Information

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2017 Apr 5

PMID 28373569

Citations 27

Authors

Nicholas C Foley

Simon P Kelly

Himanshu Mhatre

Manuel Lopes

Jacqueline Gottlieb

Affiliations

Soon will be listed here.

Abstract

In natural behavior, animals have access to multiple sources of information, but only a few of these sources are relevant for learning and actions. Beyond choosing an appropriate action, making good decisions entails the ability to choose the relevant information, but fundamental questions remain about the brain's information sampling policies. Recent studies described the neural correlates of seeking information about a reward, but it remains unknown whether, and how, neurons encode choices of instrumental information, in contexts in which the information guides subsequent actions. Here we show that parietal cortical neurons involved in oculomotor decisions encode, before an information sampling saccade, the reduction in uncertainty that the saccade is expected to bring for a subsequent action. These responses were distinct from the neurons' visual and saccadic modulations and from signals of expected reward or reward prediction errors. Therefore, even in an instrumental context when information and reward gains are closely correlated, individual cells encode decision variables that are based on informational factors and can guide the active sampling of action-relevant cues.

Citing Articles

To know or not to know? Curiosity and the value of prospective information in animals.

Ajuwon V, Monteiro T, Schnell A, Clayton N Learn Behav. 2024; 53(1):114-127.

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Functional organization of posterior parietal cortex circuitry based on inferred information flow.

Kang J, Mooshagian E, Snyder L Cell Rep. 2024; 43(4):114028.

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The parieto-occipital cortex is a candidate neural substrate for the human ability to approximate Bayesian inference.

Singletary N, Gottlieb J, Horga G Commun Biol. 2024; 7(1):165.

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