Single-Cell Imaging for Studies of Renal Uranium Transport and Intracellular Behavior

Nephrotoxicity is the primary health effect of uranium exposure. However, the renal transport and intracellular behavior of uranium remains to be clearly elucidated. In the present study, the intracellular uranium distribution was examined with the cell lines derived from the S3 segment of mouse renal proximal tubules, which is a toxic target site of uranium, using microbeam-based elemental analysis. Uranium exposure at 100 mu M for 24 h (non-toxic phase) was performed in S3 cells. Two types of measurement specimens, including those that are adhesive cell specimens and cryosection specimens, were examined for the positional relationship of the intracellular localization of uranium. Based on the combined results of single-cell imaging from the two types of cell specimens, uranium was distributed inside the cell and localized in the cytoplasm near the cell nucleus. In some cells, uranium was colocalized with phosphorus and potassium. The amount of uranium accumulated in S3 cells was estimated using thin section-standards. The mean uranium content of three adhesive cells was hundreds of femtogram per cell. Thus, we believe that single-cell imaging would be useful for studies on renal uranium transportation and cellular behavior.

Automated summary

This study investigated the intracellular distribution of uranium in S3 cells using microbeam-based elemental analysis, revealing that uranium is mainly distributed inside the cell and localized in the cytoplasm near the cell nucleus. Furthermore, uranium was found to colocalize with phosphorus and potassium in some cells. The average uranium content in S3 cells was estimated to be hundreds of femtograms per cell.