While many individuals try drugs of abuse, only a subset transition to addiction. Studying individual differences in addiction vulnerability is a critical step towards understanding the neurobiological underpinnings of motivation for drugs and their impact on the brain and behavior. Nine of eleven of the DSMV criteria for diagnosing individuals with substance use disorder relate to heightened motivation for drugs or behavioral inflexibility, characterized by persistence to seek and take drugs despite negative consequences. The dual nature of this psychological profile inspires this research program, which considers both motivation and flexibility prior to drug experience in order to understand addiction vulnerability. Phenotypic behavioral differences, termed sign-tracking and goal-tracking, differentially predict vulnerability to drug seeking. Sign- and goal-tracking traits are observed in rodents and humans, and are a promising trait distinction for characterizing addiction vulnerability across species. Sign-trackers show heightened motivation for food- and drug-associated discrete cues compared to goal-trackers. Recent work from our laboratory shows that sign- tracking rats are inflexible, continuing to respond to previously rewarded cues, even when the value of the reward has been degraded. Taken together, the ?tracking trait? distinction is an ideal model to explore individual differences in both motivation and flexibility prior to drug experience. But what are the brain mechanisms underlying these trait differences? The basolateral amygdala is a critical brain site for initial encoding of cue value that is key for supporting both appetitive motivation and flexibility through its interactions with downstream targets, the nucleus accumbens and insular cortex. We propose that individual differences in appetitive motivation and behavioral flexibility of sign- and goal-trackers are mediated by distinct basolateral amygdala projections to the nucleus accumbens and insular cortex. Here we use coordinated neurobiological approaches to test specific predictions of our hypothesis. Frist, we examine whether neuronal activity in distinct basolateral amygdala pathways supports appetitive motivation in sign- and goal-trackers. Next, we determine whether these circuits are differentially engaged and critical for driving variations in flexible behavior of sign- and goal-trackers when outcome value gets worse. Then, we determine the impact of disrupting basolateral amygdala input on encoding in downstream nucleus accumbens and insular cortex during appetitive motivation and modification of outcome value. Finally, we determine whether the basolateral amygdala pathway activated during initial learning biases the individual towards an appetitive motivated or flexible behavioral strategy. We make use of novel tools to be the first to investigate the role of specific basolateral amygdala pathways in driving the distinct behavior of sign- and goal-trackers. The proposed approaches may yield new biomarkers of addiction vulnerability and identify new prevention and diagnostic strategies for treatment of addiction.

Public Health Relevance

Addiction is a chronically relapsing disorder that has a detrimental impact on the quality of life for affected individuals, their families, and on society. Current treatment approaches do not effectively curb relapse for a majority of addicted individuals. To better treat addicted individuals we propose to characterize pre-existing behavioral and neurobiological variability that may contribute to addiction vulnerability, which will ultimately result in a more complete understanding of drug-induced behavioral and brain changes that drive addiction.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Project (R01)
Project #
5R01DA043533-02
Application #
9538695
Study Section
Neurobiology of Motivated Behavior Study Section (NMB)
Program Officer
Grant, Steven J
Project Start
2017-09-01
Project End
2022-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
2
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of Maryland Baltimore
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
188435911
City
Baltimore
State
MD
Country
United States
Zip Code
21201
Nasser, Helen M; Lafferty, Danielle S; Lesser, Ellen N et al. (2018) Disconnection of basolateral amygdala and insular cortex disrupts conditioned approach in Pavlovian lever autoshaping. Neurobiol Learn Mem 147:35-45