Transcriptomics of SGLT2-positive early proximal tubule segments in mice: response to type 1 diabetes, SGLT1/2 inhibition, or GLP1 receptor agonism.

SGLT2 inhibitors (SGLT2i) and GLP1 receptor (GLP1R) agonists have kidney protective effects. To better understand their molecular effects, RNA sequencing was performed in SGLT2-positive proximal tubule segments isolated by immunostaining-guided laser capture microdissection. Male adult DBA wild-type (WT) and littermate diabetic Akita mice ± knockout (-KO) were given vehicle or SGLT2i dapagliflozin (dapa; 10 mg/kg diet) for 2 wk, and other Akita mice received GLP1R agonist semaglutide [sema; 3 nmol/(kg body wt·day), sc]. Dapa (254 ± 11 mg/dL) and -KO (367 ± 11 mg/dL) but not sema (407 ± 44 mg/dL) significantly reduced hyperglycemia in Akita mice (480 ± 33 mg/dL). The 20,748 detected annotated protein-coding genes included robust enrichment of S1-segment marker genes. Akita showed 198 (∼1%) differentially expressed genes versus WT (DEGs; adjusted ≤ 0.1), including downregulation of anionic transport, unsaturated fatty acid, and carboxylic acid metabolism. Dapa changed only two genes in WT but restored 43% of DEGs in Akita, including upregulation of the lipid metabolic pathway, carboxylic acid metabolism, and organic anion transport. In Akita, sema restored ∼10% of DEGs, and -KO and dapa were synergistic (restored ∼61%), possibly involving additive blood glucose effects (193 ± 15 mg/dL). Targeted analysis of transporters and channels ( test, < 0.05) revealed that ∼10% of 526 detectable transporters and channels were downregulated by Akita, with ∼60% restored by dapa. Dapa, dapa + -KO, and sema also altered Akita-insensitive genes. Among DEGs in Akita, ∼30% were unresponsive to any treatment, indicating potential new targets. In conclusion, SGLT2i restored transcription for multiple metabolic pathways and transporters in SGLT2-positive proximal tubule segments in diabetic mice, with a smaller effect also observed for GLP1R agonism. SGLT2 inhibitors and GLP1 receptor agonists have kidney protective effects. By combining immunostaining-guided laser capture microdissection and RNA sequencing, the study established how the gene expression profile changes in SGLT2-positive proximal tubule cells in response to type 1 Akita diabetes and to pharmacological intervention by SGLT2 inhibition or GLP1R agonism and genetic deletion of SGLT1. The data also indicate genes unresponsive to those treatments that may include new therapeutical candidates.