Abstract
Mitochondrial dysfunction in the renal tubular epithelial cells (TECs) can lead to renal fibrosis, a major cause of chronic kidney disease (CKD). Therefore, assessing mitochondrial function in primary TECs may provide valuable insight into the bioenergetic status of the cells, providing insight into the pathophysiology of CKD. While there are a number of complex protocols available for the isolation and purification of proximal tubules in different species, the field lacks a cost-effective method optimized for tubular cell isolation without the need for purification. Here, we provide an isolation protocol that allows for studies focusing on both primary mouse proximal and distal renal TECs. In addition to cost-effective reagents and minimal animal procedures required in this protocol, the isolated cells maintain high energy levels after isolation and can be sub-cultured up to four passages, allowing for continuous studies. Furthermore, using a high throughput extracellular flux analyzer, we assess the mitochondrial respiration directly in the isolated TECs in a 96-well plate for which we provide recommendations for the optimization of cell density and compound concentration. These observations suggest that this protocol can be used for renal tubular ex vivo studies with a consistent, well-standardized production of renal TECs. This protocol may have broader future applications to study mitochondrial dysfunction associated with renal disorders for drug discovery or drug characterization purposes.
Highlights
Renal tubular epithelial cell (TEC) function is strongly associated with the overall health condition of the kidney
Pathological signaling in the kidney causes the dedifferentiation of TECs, which plays a major role in kidney fibrosis and chronic kidney disease (CKD)[1,2]
We optimized a protocol that allows for the efficient isolation of mouse renal tubular epithelial cells (TECs) and showed that the cells can be subcultured for an extracellular flux analysis to evaluate the mitochondrial respiration in the presence of fatty acid- and/or glucose-based substrates
Summary
Renal tubular epithelial cell (TEC) function is strongly associated with the overall health condition of the kidney. A recent study on renal fluoride toxicity showed that pathological changes took place in both the proximal and distal tubules[21] This isolation protocol is designed and optimized for both proximal and distal tubular cells from mouse kidneys with a minimal cost of reagents and simple procedures. Using a high throughput extracellular flux analyzer, we assess the mitochondrial respiration directly in the isolated TECs in a 96-well plate, which leads to further insights into cell density optimization These observations suggest that this protocol can be applied to renal tubular ex vivo studies with a consistent, well-standardized production of renal TECs. An added significance of this protocol is its feasible usage as a high throughput tool for the ex vivo characterization of mitochondrial bioenergetics in renal proximal and distal tubular cells. All experiments involving animals were approved by the Institutional Animal Care and Use Committee at the University of Miami, conforming to NIH guidelines
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