The dorsal root ganglion (DRG) and trigeminal ganglion (TG) contain cell bodies of the peripheral sensory neurons that transmit pain signals from different parts of body to the central nervous system. Peripheral neuropathy and trigeminal neuralgia are common painful conditions that can be caused by pathologies affecting these nerves. Current clinical treatment of these conditions often relies on anticonvulsant drugs with significant neurological side effects. Lack of effective treatments of these conditions highlights the need for better therapeutic approaches. GNB5 encodes the protein Gβ5, a divergent member of the G protein β family, that binds with members (RGS6, 7, 9 and 11) of the R7 subfamily of the regulators of G signaling (R7-RGS) to form obligate Gβ5/R7-RGS complexes. The Gβ5/R7-RGS complex proteins are expressed primarily in neurons including those in the DRG and TG. They function as GTPase-Activating Proteins (GAP) to dampen signaling downstream of Gi/o-coupled receptors. Studies in our lab demonstrated that Adv-Cre+/−; Gnb5fl/fl mice lacking Gnb5 in sensory neurons have significantly reduced mechanical, thermal and chemical nociception. However, RGS7-Cre+/−; Gnb5fl/fl mice lacking Gnb5 in Rgs7 expressing neurons exhibited only diminished mechanical nociception. Additionally, treatment with GABA-B receptor antagonist 2- hydroxysaclofen abolished the inhibition of mechanical nociception in both Advillin- Cre+/-; Gnb5fl/fl and Rgs7-Cre+/-; Gnb5fl/fl mice, implicating the involvement of GABA-B receptor signaling in Gβ5/Rgs7-associated mechanical nociception. To further understand the cellular and molecular mechanisms of Gβ5/R7-RGS complex-mediated nociception, we analyzed and compared the expression profiles of the Gβ5/R7-RGS genes in DRG and TG through bioinformatic analysis of publicly available scRNAseq datasets and in situ hybridization of selected genes using RNAscope technology. We found high levels of Gnb5 expression across all sensory neuron cell types while the expressions of members of R7-RGS subfamily showed distinctive patterns among these neuron cell types. Single cell clustering analysis using known neuronal markers revealed that Rgs7 and Rgs11 were highly expressed in majority of neuron types, while Rgs6 and Rgs9 were represented in smaller, more distinct clusters. These results suggest that particular members of R7-RGS gene family might play distinct roles in different types of nociception, a finding that warrants further investigation into the individual mechanisms of each member of this gene family in pain transmission. NIDDK Intramural Research Program ZIA DK043304-29. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.