Our lab’s investigation into the behavioral and hormonal factors controlling oral prescription opioid-seeking behavior is up on biorxiv here .

Congratulations to Alysa and all co-authors!

Dillon’s research was selected at the annual Colorado Neuroscience Symposium by the Rocky Mountain Regional Neuroscience Group, a local chapter of the Society for Neuroscience, as a top abstract/poster

Congratulations to Katelynn who was awarded the Psychology and Neuroscience department David E Drutz Scholarship Award!

Congratulations to Janet, Kyu, and Katelynn who were each awarded summer UROP scholarships to continue their research on the cell-type specific bases of motivation . Janet and Kyu’s are two-time winners of this award.

Congratulations to Arielle Sandoval on her Boettcher Collaboration Award! Boettcher Scholars interested in working with us may also apply for this award - click here for more information.

Congratulations to David Huynh, who was named a BSI Scholar! David’s project involves stressor controllability and will be co-mentored with Dr. Mike Baratta.

The lab welcomes graduate student Dillon McGovern!

Our new paper is out! We identified concentrated populations of neurons that co-express molecular markers of GABA synthesis, accumulation of glutamate into synaptic vesicles, and accumulation of GABA into synaptic vesicles. These neurons that co-transmit glutamate and GABA belong to specific parts of the ventral tegmental area (VTA), supramammillary nucleus (SUM), and entopeduncular nucleus (EPN). We also found subsets of neurons in lateral habenula, pons, and elsewhere that accumulate glutamate into synaptic vesicles, synthesize GABA, but do not accumulate GABA into vesicles by VGaT, suggesting this type of glutamate-GABA neuron does not co-transmit glutamate and GABA. 

Examining the axon terminals established by VTA, EPN, and SUM neurons we found a common synaptic structure of independent types of inhibitory or excitatory synapses from single axon terminals - suggesting a common mechanism for the co-transmission of glutamate and GABA from different sources of glutamate-GABA neurons. Finally, in lateral habenula that receives co-transmitted glutamate and GABA from VTA and EPN, we found that glutamate and GABA are accumulated into separate synaptic vesicles. This suggests that the co-transmission of glutamate and GABA arises from specific synaptic vesicles released at separate synapses within single axon terminals.

You can download the paper here at Cell Reports

The lab has been awarded a three-year Webb-Waring Biomedical Research Grant to investigate the cellular substrate of prescription opioid self-administration! Dave is named a Boettcher Investigator. More information about this project can be found here. More information on the Webb-Waring award can be found here. 

Thank you to the Boettcher Foundation - we are grateful for your support! 

Congratulations to Kyu Ro, who was awarded the prestigious McNair Scholarship!