Diabetic kidney disease alters the transcriptome and function of human adipose-derived mesenchymal stromal cells but maintains immunomodulatory and paracrine activities important for renal repair.

Mesenchymal stem/stromal cells (MSC) facilitate repair in experimental diabetic kidney disease (DKD). However, the hyperglycemic and uremic milieu may diminish regenerative capacity of patient-derived therapy. We hypothesized that DKD reduces human MSC paracrine function. Adipose-derived MSC from 38 DKD participants and 16 controls were assessed for cell surface markers, tri-lineage differentiation, RNA-sequencing (RNA-seq), in vitro function (co-culture or conditioned medium experiments with T cells and human kidney cells [HK-2]), secretome profile, and cellular senescence abundance. The direction of association between MSC function and patient characteristics were also tested. RNA-seq analysis identified 353 differentially expressed genes and downregulation of several immunomodulatory genes/pathways in DKD- vs Control-MSC. DKD-MSC phenotype, differentiation, and tube formation capacity were preserved but migration was reduced. DKD-MSC with and without interferon-γ priming inhibited T-cell proliferation greater than Control-MSC. DKD-MSC-medium contained higher levels of anti-inflammatory cytokines (indoleamine 2,3-deoxygenase-1 and prostaglandin-E2) and pro-repair factors (hepatocyte growth factor and stromal cell-derived factor-1) but lower Interleukin-6 vs. Control-MSC-medium. DKD-MSC-medium protected high glucose plus transforming growth factor-β-exposed HK-2 cells by reducing apoptotic, fibrotic and inflammatory marker expression. Few DKD-MSC functions were affected by patient characteristics including age, gender, body mass index, hemoglobin A1c, kidney function or urine albumin excretion. However, senescence-associated-β-galactosidase activity was lower in DKD-MSC from participants on metformin therapy. Therefore, while DKD altered the transcriptome and migratory function of culture-expanded MSC, DKD-MSC functionality, trophic factor secretion and immunomodulatory activities contributing to repair remained intact. These observations support testing patient-derived MSC therapy and may inform preconditioning regimens in DKD clinical trials.