Location of Aluminium and Gallium in Human Neuroblastoma Cells Treated with Metal-Chelating Agent Complexes

Abstract

The subcellular location of aluminium is unknown, probably because of difficulties in investigating aluminium biochemistry and the use of varied experimental approaches of uncertain sensitivity. We have studied levels of uptake and the localization of gallium and of aluminium in cultured human neuroblastoma cells treated with soluble metal complexes (mainly Al– or Ga–EDTA), radiolabeled with26Al or67Ga, respectively. Crude nuclei and cytoplasm were obtained by two separate methods, and DNA, RNA, and proteins were prepared from the nuclei by centrifugation in high salt; also, cytosol and noncytosol were separated using a nondissociating method.Levels of uptake were of similar order for the two metals—on average about 50 pmol/106cells for aluminium and 120 pmol/106cells for gallium, after 4 to 8 days treatment at 250 μM, and approximately 50 to 70% of the metal was found in the cytosol. About 20% of the aluminium and 10 to 25% of the gallium was associated with nuclear protein. A lower proportion was bound to DNA and to nuclear RNA. In cells treated with gallium-citrate/transferrin mixtures, 30 to 35% of the gallium in the cytosol was bound to protein, at least35being loosely bound; the main gallium-associated protein was probably intracellular transferrin. The remaining 65 to 70% of the metal in the cytosol was in low-molecular-weight form, and we suggest that the latter metal could affect structures such as the cytoskeleton and also metabolic processes in the cytoplasm. The similarity in distribution of the two metals supports the use of gallium as a “surrogate” for aluminium, at least in cell culture studies.