3D Cell Printing of Advanced Vascularized Proximal Tubule-on-a-Chip for Drug Induced Nephrotoxicity Advancement.

Renal dysfunction due to drug-induced nephrotoxicity (DIN) affects >20% of the adult population worldwide. The vascularized proximal tubule is a complex structure that is often the primary site of drug-induced kidney injury. Herein, a vascularized proximal tubule-on-a-chip (Vas-POAC) was fabricated, demonstrating improved physiological emulation over earlier single-cell proximal tubule models. A perfusable model of vascularized proximal tubules permits the growth and proliferation of renal proximal tubule cells and adjacent endothelial cells under various conditions. An in vitro Vas-POAC showed mature expressions of the tubule and endothelial cell markers in the mature epithelium and endothelium lumens after 7 days of culture. Expression in the mature proximal tubule epithelium resembled the polarized expression of sodium-glucose cotransporter-2 and the de novo synthesis of ECM proteins. These perfusable Vas-POACs display significantly improved functional properties relative to the proximal tubules-on-a-chip (POAC), which lacks vascular components. Furthermore, the developed Vas-POAC model evaluated the cisplatin-induced nephrotoxicity and revealed enhanced drug receptivity compared to POAC. We further evaluated the capability of the developed proximal tubule model to act as a functional platform that targets screening drug doses that can cause renal proximal tubule injury in adults. Thus, our cell-printed models may prove valuable for screening, thoughtful mechanistic investigations of DIN, and discovery of drugs that interfere with tubule formation.