Your search keyword '"Bohn, Laura M."' showing total 3 results

1. Synthesis and evaluation of 3,4,5-trisubstituted triazoles as G protein-biased kappa opioid receptor agonists

Author

Trojniak, Ashley E., Dang, Vuong Q., Czekner, Kerri M., Russo, Robin J., Mather, Lilyan M., Stahl, Edward L., Cameron, Michael D., Bohn, Laura M., and Aubé, Jeffrey

Published

2024

2. Comparison of Agonist Activity between CB1 and CB2 Receptors with Orthosteric Site Mutations.

Author

Brust, Christina A., Swanson, Matthew A., Tsoutsouvas, Christos Iliopoulos, Dimova, Snezana T., Dang, Vuong Q., Stahl, Edward L., Ho, Jo-Hao, Nikas, Spyros P., Makriyannis, Alexandros, and Bohn, Laura M.

Subjects

G protein coupled receptors, CANNABINOID receptors, LIGANDS (Biochemistry), DRUG target, CANNABINOIDS

Abstract

Human endocannabinoid signaling is primarily mediated by the cannabinoid receptors, CB1 and CB2, which are G protein-coupled receptors (GPCRs). These receptors have been linked to a variety of physiological processes and are being pursued as prospective drug targets due to their potential in treating pain and inflammation. However, because of their homology and shared signaling mechanisms, investigating the individual physiological roles of these receptors and designing subtype-selective ligands has been challenging. Using active-state CB1 and CB2 structures as guides, homologous residues within the orthosteric pocket of each receptor were mutated to alanine to test whether they equally impair CB1 and CB2 activity in response to two high-affinity, nonselective agonists (CP55,940 and AM12033). Interestingly, mutating the Y5.39 position impairs CB1 but not CB2 function. Conversely, mutating residue C6.47 improves CB1 but impairs CB2 signaling. The F7.35A mutation leads to a decrease in CP55,940 potency at CB1 and impairs internalization; however, AM12033 gains potency and promotes CB1 internalization. In CB2, mutation of F7.35A decreases the potency of CP55,940 and neither agonist induces internalization. These observations provide some insight into functional sensitivity of CB1 and CB2 to different agonists when conserved residues are mutated in the orthosteric pocket. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dynamic Strategic Bond Analysis Yields a Ten-Step Synthesis of 20-nor-Salvinorin A, a Potent κ-OR Agonist

Author

Roach, Jeremy J., Sasano, Yusuke, Schmid, Cullen L., Zaidi, Saheem, Katritch, Vsevolod, Stevens, Raymond C., Bohn, Laura M., and Shenvi, Ryan A.

Abstract

Salvinorin A (SalA) is a plant metabolite that agonizes the human kappa-opioid receptor (κ-OR) with high affinity and high selectivity over mu-and delta-opioid receptors. Its therapeutic potential has stimulated extensive semisynthetic studies and total synthesis campaigns. However, structural modification of SalA has been complicated by its instability, and efficient total synthesis has been frustrated by its dense, complex architecture. Treatment of strategic bonds in SalA as dynamic and dependent on structural perturbation enabled the identification of an efficient retrosynthetic pathway. Here we show that deletion of C20 simultaneously stabilizes the SalA skeleton, simplifies its synthesis, and retains its high affinity and selectivity for the κ-OR. The resulting 10-step synthesis now opens the SalA scaffold to deep-seated property modification. Finally, we describe a workflow to identify structural changes that retain molecular complexity, but reduce synthetic complexitytwo related, but independent ways of looking at complexity.

Published

2024