My career goal is to obtain an independent academic position at a respected research university, studying the effects of opiates on striatal synaptic function and behavior, and training future scientists in this area. I developed a passionate interest in this topic during my doctoral studies at the University of Minnesota, where I used behavioral pharmacology to investigate the rewarding and aversive properties of abused drugs, and studied how drug exposure affects synaptic function in the nucleus accumbens (NAc). As a postdoctoral scholar at Stanford University, I have worked with Drs. Robert Malenka and Thomas Sudhof to develop and expand my training in the molecular basis of NAc circuit function. A primary goal of this career development award is to obtain additional training in optogenetic approaches to studying NAc circuitry that will help launch my independent career. My career development in addiction research and training in optogenetics will be supervised by Dr. Malenka at Stanford, with additional support from Dr. Sudhof and Dr. Karl Deisseroth. I will learn to perform optogenetic stimulation of specific NAc synaptic connections in brain slice preparations, while performing whole-cell recordings from identified subtypes of NAc medium spiny neurons, allowing precise definition of synaptic connections based on presynaptic source and postsynaptic target. I will also learn to stimulate specific NAc circuit elements in vivo to examine the impact on behavioral responses. During the mentored phase of this award, I will focus on the synaptic mechanisms of morphine reward, as well as synaptic modifications of NAc circuitry caused by chronic intermittent morphine exposure. During the independent phase of this award, I will extend this analysis to chronic continuous opiate administration, and examine the synaptic and behavioral consequences of opiate withdrawal using optogenetic approaches. My training and career development in opioid pharmacology will be facilitated by an Advisory Committee of established researchers in this area, who will be involved in both the mentored and independent phases of this award. Significant components of this proposal include parallel study of the same NAc circuit elements in opiate reward and aversion, as well as direct and controlled comparison of intermittent and continuous opiate exposure. These different temporal patterns of opiate administration are associated with distinct neurobiological, behavioral, and clinical outcomes. These experiments will lay the groundwork for future grant applications focused on the molecular mechanisms of opiate effects on NAc circuitry. I hope that my research in this area will benefit public health by guiding efforts to reduce abuse of prescription painkillers.

Public Health Relevance

New technologies are allowing neuroscientists to study connections between different types of brain cells with unprecedented specificity. I will apply these approaches to the nucleus accumbens, an important brain region for drug abuse and addiction, to determine in fine detail how the function of this brain region is altered by exposure to morphine. A comparison of different temporal patterns of morphine exposure may guide efforts to reduce abuse of prescription painkillers - a major public health problem.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Transition Award (R00)
Project #
4R00DA037279-02
Application #
9185600
Study Section
Special Emphasis Panel (NSS)
Program Officer
Sorensen, Roger
Project Start
2016-02-05
Project End
2019-01-31
Budget Start
2016-02-05
Budget End
2017-01-31
Support Year
2
Fiscal Year
2016
Total Cost
$249,000
Indirect Cost
$45,361
Name
University of Minnesota Twin Cities
Department
Neurosciences
Type
Schools of Medicine
DUNS #
555917996
City
Minneapolis
State
MN
Country
United States
Zip Code
55455
Rothwell, Patrick E; Hayton, Scott J; Sun, Gordon L et al. (2015) Input- and Output-Specific Regulation of Serial Order Performance by Corticostriatal Circuits. Neuron 88:345-56