Uptake and biological transformation of βNiS and αNi3S2 by human embryonic pulmonary epithelial cells (L132) in culture

Abstract

The cytotoxicity, biological transformation and interaction with plasma membranes of αNi₃S₂ and βNiS were studied on human embryonic pulmonary epithelial cells (L132 cell line) in culture. By establishing growth curves and survival curves, it was found that at equal molarity βNiS has a higher inhibitory effect on cell growth than αNi₃S₂ but a lower cytotoxic effect: the CL₅₀ being 60 and 40 μmol/I respectively. As to their uptake, βNiS crystals are preferentially phagocytized in their original form and then probably dissolved in the vacuoles, whereas αNi₃S₂ is transformed in the extracellular space and in the phagocytic vacuoles into minute particles (10 nm) that are recovered bound to the cell membrane, phagocytic vacuoles and lysosomal membranes respectively. Energy dispersive spectrometry revealed that the particles bound to cell membranes no longer contain sulfur but only phosphorus and nickel as inorganic compounds. This observation suggests the formation of a Ni/P complex with the phosphate groups of membranous phospholipids and/or phosphotransferring proteins. The steady-state fluorescence polarization analysis, however, revealed a significant increase of membrane fluidity either induced by desaturation of aliphatic chains or directly by the cleavage of the fatty acid chains. These results clearly show a difference between βNiS and αNi₃S₂ concerning their cytotoxic effects, uptake, biological transformation and interaction with cell membranes.