The shortage of donor kidneys is an important factor restricting kidney transplantation for patients with end-stage renal disease. To overcome this problem, we used decellularized kidney scaffolds and nephron progenitor cells (NPCs) as seed cells to construct bioengineered kidneys (BEKs). To reduce the effect of extracellular matrix (ECM) loss during the decellularization process on the cell growth microenvironment, we used dextrose to minimize collagen loss in decellularized kidney scaffolds. At the same time, to further improve the growth microenvironment of seed cells in the decellularized scaffolds, we modified the decellularized scaffolds with the self-assembling polypeptide Naphthalenephenylalanine-phenylalanine-glycine-arginine-glycine-aspartic (Nap-FFGRGD) to promote the adhesion and proliferation of seed cells in the scaffolds. NPCs were perfused into the decellularized kidney scaffolds and then the BEKs were cultured in vitro and transplanted in vivo. Markers of podocytes and renal tubules expressed in the glomeruli and renal tubules of the BEKs were detected by immunofluorescence staining, respectively were, suggesting that NPCs can continue to differentiate into renal cells and achieve nephron segment-specific re-population through self-assembly. These results indicate that by relying on the microenvironment provided by Nap-FFGRGD modified decellularized scaffolds, NPCs can be used to construct BEKs for transplantation in the future due to the self-assembly properties of organoids.
Keywords: Bioengineered kidneys; Decellularized scaffold; Nap-FFGRGD; Nephron progenitor cells; Self-assembly.
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