Congratulations to Dillon and collaborator Abby Polter on their preprint: Neurochemical signaling of reward and aversion by ventral tegmental area glutamate neurons. Download it here.

We previously found that subsets of VTA glutamate neurons either increase or decrease firing at reward but most are activated by aversive stimuli (paper here). Here, Dillon aimed to identify the neurochemical inputs to VTA glutamate neurons that contribute to these diverse motivation-related responses. He used new optical sensors of glutamate or GABA inputs specifically to VTA glutamate neurons during motivated behaviors. You can find them on Addgene as SF-iGluSnFR and iGABASnFR, developed by Jonny Marvin in the Looger lab.

We found that while glutamate inputs increased at reward-related cues, subpopulations of glutamate inputs either increased or decreased following reward. The reward-related glutamate responses mirror our prior electrophysiological results of VTA glutamate neurons that increase or decrease firing at reward. GABA inputs to VTA glutamate neurons decreased following reward-related cues and events.

Regardless of their reward-related response, glutamate inputs increase following aversion-related cues and events. This strong and reliable glutamatergic drive to VTA glutamate neurons by aversion-related stimuli likely underlies our observation that most VTA glutamate neurons increase firing by aversive events. In response to aversive cues and events, GABA inputs decrease.

We compared the neurotransmitter sensor responses to those of GCaMP and found some interesting differences. We believe that the use of neurotransmitter sensors is complimentary to neuronal activity-based sensors. The neurotransmitter sensors offer the unique opportunity to investigate the neurochemical inputs that may relay certain behavior-relevant events that are integrated into a coherent neuronal response measured by GCaMP (or other sensor).

Finally, Abby examined how glutamate and GABA receptors affect the firing of VTA glutamate neurons. Glutamate receptors control the spontaneous firing of these neurons but GABA-A receptors are surprisingly not very effective in changing their spontaneous firing. Together, we hypothesize that 1) fluctuating levels of glutamate inputs excite or disexcite VTA glutamate neurons during their signaling of motivated behaviors and that 2) different glutamatergic circuits control VTA glutamate neuron participation in reward or aversion-based behaviors.

Congratulations to both Dillon McGovern and Katelynn Fegan on their successful defenses.

Dillon completed his comprehensive exams, advanced to Ph.D. candidate, and submitted his NRSA. Katelynn defended her undergraduate honor’s thesis!

We’re thrilled to announce the lab is supported by a 5 year R01 grant from the National Institute on Drug Abuse to investigate the circuits and motivational functions of VTA neurons defined by multiple genetic characteristics

Thank you to the Winter Conference on Brain Research for selecting me as the inaugural Conan Kornetsky Fellow! Check out our work at the conference —>

At the Conan Kornetsky Memorial panel I’ll be talking about electrophysiological and neurochemical mechanisms underlying VTA glutamate neurons in motivated behavior. I will also chair two panels. The first on detection and manipulation of neurotransmitter systems, graduate student Dillon McGovern will present his work on neurochemical signaling of reward and aversion in VTA glutamate neurons. Also check out exciting talks from Jason Dong (5-HT imaging), Jonathan Marvin (glutamate, GABA, acetycholine, ATP imaging), and Michael Tadross (cell-type specific pharmacology, DART). The second panel is on the functions and circuits of neurons defined by multiple genetic features. I will present work on the functions of subtypes of VTA glutamate and GABA neurons, Patricia Jensen will present her work on subtypes of noradrenergic neurons and anxiety, Lief Fenno will present his work on developing INTRSECT2.0 a viral framework to manipulate neurons based on multiple genetic characteristics, and Susana Mingote will present her research on subtypes of VTA glutamate and dopamine neurons.

This is becoming a pattern…Check out Dillon’s work on Neurochemical signaling of motivation by ventral tegmental area glutamate neurons at the Front Range Neuroscience Group on 12/11 —> Also his work was featured on the cover for the meeting!!

Come check out our work at SfN 2019!

Sunday at 10AM Dillon McGovern will present his work using multiple neurotransmitter sensors to determine the neurochemical signaling patterns that underlie VTA glutamate neuron involvement in reward and aversion

Sunday afternoon I'll present a poster on the targeting and signaling patterns of genetically distinct subtypes of VTA glutamate and GABA neurons during conditioned reward and aversion

Monday afternoon Alysabeth Phillips will present her research on oral prescription opioid-seeking behavior in male and female mice

Congratulations to Paul Rastrelli on his Boettcher Collaboration Award to study the neurochemical and cell-type specific basis of prescription opioid addiction! Boettcher Scholars interested in working with us may also apply for this award - click here for more information

Congratulations to Dillon on the publication of his Research Highlight! See it here

Congratulations to all authors, our prior pre-print is now published in Addiction Biology. Check out the paper here

We are pleased to annouce that the lab was awarded a grant to study the cell-type specific neurobiology of stress.

Interested in working on this project? We are hiring a professional research assistant to complete it, please get in touch

Thank you to the Brain and Behavior Research Foundation, we are grateful for your support!