GGrantIndex
← Search

Role of Ventral Pallidum Projection to VTA in Reinstatement of Cocaine Seeking

$9,158R00FY2017DANIH

University Of California-Irvine, Irvine CA

Investigators

Linked publications & trials

Abstract

Project Summary/Abstract Addiction is a major health concern, and its chronic relapsing nature is perhaps its most insidious aspect. Exposure to drug-associated cues is a risk factor for relapse, and understanding how the brain processes these cues may lead to addiction therapies. Here, I examine the role of projections from the ventral pallidum (VP) to ventral tegmental area (VTA) in a rat self-administration/cue-induced reinstatement model of relapse. I will employ novel, viral-based means of controlling this pathway, including designer receptors (DREADDs) that inhibit neuronal activity when an otherwise inert drug (CNO) is administered, and opsins, which allow control of neuronal activity with light. I have found that projections from the rostral portion of VP (RVP) to VTA are activated during cued reinstatement, and that DREADD-based inactivation of RVP and its VTA projections specifically block this behavior. Here, I explore the mechanisms by which RVP-VTA projections mediate cued reinstatement, and how RVP inputs modulate VTA activity. In the K99 Aims, I propose confirming and extending my findings that inhibiting RVP projections to VTA in particular with DREADDs specifically blocks cued reinstatement. Next, I propose electrophysiologically examining how RVP inputs to VTA modulate firing of VTA dopamine and non-dopamine neurons, and how inhibiting this pathway affects VTA neuronal activity. With the training in electrophysiology and opto/pharmacogenetic modulation of brain circuits I receive during the K99 period, I will employ these techniques to further determine the functional roles of the RVP-VTA circuit in cued reinstatement during the R00 period. First, I will determine whether RVP projections to VTA require dopamine in order to have effects on reinstatement behavior, using a transgenic rat line allowing expression of DREADDs specifically in dopamine neurons. Next, I will examine the temporal relationship of RVP-VTA projection activity to transient cue presentations in the reinstatement context using inhibitory optogenetic techniques. I will determine whether phasic, cue-locked activation, or tonic activation of RVP inputs is necessary for conditioned stimuli to elicit reinstatement. These experiments will therefore characterize the mechanisms of the novel, functionally-identified RVP-VTA pathway, which is crucially involved in cue-induced reinstatement of cocaine seeking in a rat model of relapse in addiction.

View original record on NIH RePORTER →