Nephrogenesis accompanied by vascularisation in the mouse embryonic metanephros transplanted into the adult kidney for the creation of additional nephrons

Abstract

SUMMARY: Metanephric kidneys of nude mice were transplanted on embryonic day 12 into an adult kidney of the same strain, and the growth of the implants was analysed histochemically to investigate the ontogenesis, structure and function of the newly developed additional nephrons. By using a light microscope, developing nephrons at various stages were observed in the implants growing in the host kidney 7 days after transplantation. Immature nephrons, comprising the nephrogenic zone, were intensely positive for proliferating cell nuclear antigen (PCNA) immunostaining, but were no longer present 14 days after transplantation. Vascular integration was observed between the host and implant tissues. Electron microscopic observation 14 days after transplantation showed that the afferent arterioles together with juxtaglomerular cells had entered the gtomeruli. All of the cell types were identified in the vascularised glomeruli with erythrocytes. the visceral epithelial cells had differentiated foot processes, whereas the endothelium of the glomerular tufts was rather thick in parts, and most of the epithelial and endothelial basement membranes were not fused. Several parts of the uriniferous tubules, including proximal and distal tubules, could be identified, and it was found that many of them had remained immature. Some proximal tubules with well‐developed brush‐border microvilli reabsorbed the horseradish peroxidase (HRP) injected into the host inferior vena cava, thus providing evidence of glomerular ultrafiltration in the vascularised implants perfused by the host. These findings indicate that the nephrogenesis in the implants followed a nearly normal developmental route and showed marked vascularisation, which promoted the organogenesis of the implanted metanephros and nephron function.