Abstract Body: Introduction/Background: Hypertension affects ~45% adults in the US and is associated with a high sodium diet. The nucleus tractus solitarii (nTS) in the brainstem influences blood pressure through the interplay between glutamate and GABA. Sodium-glucose cotransporter 2 (SGLT2) is a protein recently found within the nTS, and its expression in the nTS may impact blood pressure. In this study, we investigated the distribution of SGLT2 in the nTS of normotensive and hypertensive rats, focusing on its presence in glutamatergic (Glu) and GABAergic neurons. Within the nTS, increases in glutamate lowers blood pressure, and increases of GABA raises blood pressure. The interaction between SGLT2 and glutamate/GABAergic neurons within the nTS is not well-understood.
Hypothesis: We hypothesize that SGLT2 colocalizes on both Glu and GABAergic nTS neurons but increases due to a high salt diet.
Methods: Male Dahl-Salt Sensitive Rats were fed a normal 0.4% salt diet (NSD) for 2 weeks and randomly placed to a NSD or a high 4% salt diet (HSD) for 7 weeks. After 9 weeks total, the brainstem section containing the nTS of each rat was isolated at 9AM.
Goals/Aims: We used immunohistochemistry to identify either Glu (CAMKII) and GABAergic (GAD67) and localize SGLT2. Using a confocal microscope, a Z-stack image was compiled at 40x magnification and colocalization analysis was completed to determine if SGLT2 is found greater on Glu or GABAergic neurons.
Results: We examined 3 areas within the nTS: caudal, rostral, and mid (area postrema, a region where cardiorespiratory afferent information is received). We first found that SGLT2 colocalizes to different extents on both Glu and GABAergic nTS neurons. We used Pearson’s R correlation to determine the strength and linear relationship between cell type and SGLT2. In GABAergic neurons, we found a positive correlation (r=0.319) in NSD, which decreased significantly in HSD (p=0.013, t-test) in the nTS at area postrema. Conversely, within the caudal nTS, SGLT2 colocalizes to a greater extent on Glu neurons in HSD (r=0.434) and lower in NSD (r=0.308), (p=0.04, t-test).
Conclusions: In our model, we find that SGLT2 colocalization with Glu and GABAergic neurons is present within the nTS in a location-dependent manner, which may affect its function in the development of hypertension. Further experiments exploring the SGLT2 within normotensive and hypertensive rats may better reveal the function of the protein within the nTS.