RATIONALE AND OBJECTIVES: To study cellular mechanisms that cause contrast media nephropathy, an in vitro system for proximal and distal tubular cells has been established to evaluate the influence of x-ray contrast media on tubular function. METHODS: Confluent cell cultures of the two renal cell lines, proximal tubule (LLC-PK1) and distal tubule (MDCK), were exposed for 20 hours to 0 to 100 mg iodine/mL of the ionic monomer metrizoate, the ionic dimer ioxaglate, and the non-ionic monomer iohexol. Toxicity was assessed by electron microscopy, cell viability, and biochemical assays of brush-border and lysosomal marker enzymes. RESULTS: The results demonstrated a concentration-dependent toxic effect from the contrast media on cellular appearance consisting of an increased vacuolization and on the activity of brush-border and lysosomal marker enzymes in cells and in culture media. CONCLUSION: The results, in which the nonionic x-ray contrast media iohexol appeared to be less toxic than the ionic x-ray contrast media investigated, demonstrated that defined renal cells in culture are valuable tools in studies regarding renal toxicity of x-ray contrast media.
RATIONALE AND OBJECTIVES: To study cellular mechanisms that cause contrast media nephropathy, an in vitro system for proximal and distal tubular cells has been established to evaluate the influence of x-ray contrast media on tubular function. METHODS: Confluent cell cultures of the two renal cell lines, proximal tubule (LLC-PK1) and distal tubule (MDCK), were exposed for 20 hours to 0 to 100 mg iodine/mL of the ionic monomer metrizoate, the ionic dimer ioxaglate, and the non-ionic monomer iohexol. Toxicity was assessed by electron microscopy, cell viability, and biochemical assays of brush-border and lysosomal marker enzymes. RESULTS: The results demonstrated a concentration-dependent toxic effect from the contrast media on cellular appearance consisting of an increased vacuolization and on the activity of brush-border and lysosomal marker enzymes in cells and in culture media. CONCLUSION: The results, in which the nonionic x-ray contrast media iohexol appeared to be less toxic than the ionic x-ray contrast media investigated, demonstrated that defined renal cells in culture are valuable tools in studies regarding renal toxicity of x-ray contrast media.
Authors: C Quintavalle; M Brenca; F De Micco; D Fiore; S Romano; M F Romano; F Apone; A Bianco; M A Zabatta; G Troncone; C Briguori; G Condorelli Journal: Cell Death Dis Date: 2011-05-12 Impact factor: 8.469