Identification of three distinct cell populations for urate excretion in human kidneys.
Yoshihiko M SakaguchiPattama WiriyasermkulMasaya MatsubayashiMasaki MiyasakaNau SakaguchiYoshiki SaharaMinoru TakasatoKaoru KinugawaKazuma SugieMasahiro EriguchiKazuhiko TsuruyaHiroki KuniyasuShushi NagamoriEiichiro MoriPublished in: The journal of physiological sciences : JPS (2024)
In humans, uric acid is an end-product of purine metabolism. Urate excretion from the human kidney is tightly regulated by reabsorption and secretion. At least eleven genes have been identified as human renal urate transporters. However, it remains unclear whether all renal tubular cells express the same set of urate transporters. Here, we show renal tubular cells are divided into three distinct cell populations for urate handling. Analysis of healthy human kidneys at single-cell resolution revealed that not all tubular cells expressed the same set of urate transporters. Only 32% of tubular cells were related to both reabsorption and secretion, while the remaining tubular cells were related to either reabsorption or secretion at 5% and 63%, respectively. These results provide physiological insight into the molecular function of the transporters and renal urate handling on single-cell units. Our findings suggest that three different cell populations cooperate to regulate urate excretion from the human kidney, and our proposed framework is a step forward in broadening the view from the molecular to the cellular level of transport capacity.