GGrantIndex
← Search

The role of cortical D1R-expressing neurons in taste-based sensorimotor transformations

$39,055F31FY2022DCNIH

State University New York Stony Brook, Stony Brook NY

Investigators

Abstract

PROJECT SUMMARY To survive, animals must use gustatory sensory stimuli to inform and guide reward-oriented actions like licking and chewing. Previous work examining this process, known as sensorimotor integration, has established the anterior lateral motor cortex (ALM) as a model brain region to study sensorimotor processing related to licking. Neural activity within this region reflects sensory information and motor planning of licking, implicating ALM in mediating sensory-based lick decisions. However, it remains unknown if ALM is involved in taste-guided sensorimotor integration – despite licking and taste being invariably connected – and whether this process in- volves dopaminergic circuits. Blockade of D1R signaling within ALM has been found to affect both sensory- evoked responses and motor planning of stimuli-guided licking, suggesting a potential role for ALM neurons expressing D1Rs (D1R+ neurons) in lick-related sensorimotor transformations. However, the contributions of D1R+ neurons in taste-guided sensorimotor integration remains unstudied. This proposal will test the central hypothesis that D1R+ neurons are required during gustatory sensorimotor transformation and exhibit patterns of activity representing gustatory processing and preparation of lick choice. The proposed experiments will rely on a recently established 4-taste, 2-alternative choice (2-AC) task in which mice must sample one out of four tastants (i.e., two sweets: sucrose, maltose and two bitters: quinine and sucrose octaacetate) from a central spout and associate pairs with opposite perceptual qualities with specific actions (i.e., sucrose or quinine → lick left vs maltose and sucrose octaacetate → lick right) after a delay period. To study the role of D1R+ neurons during this behavior, I will utilize a combination of cutting-edge techniques that include cell-type specific optoge- netic manipulation and 2-photon calcium imaging. To my knowledge, these will be some of the first experiments examining the link between gustatory sensorimotor processing and neurons expressing D1Rs.

View original record on NIH RePORTER →