Abstract

The trivalent cation aluminum can cause chronic cytotoxicity in plants, animals and microorganisms. It has been suggested that Al interaction with cell membranes and enzyme metal binding sites may be involved in Al cytotoxicity. In this study, the binding of Al to microsomes and liposomes was found to be lipid dependent with the signal transduction element phosphatidylinositol-4,5-bisphosphate having the highest affinity for Al with an Al:lipid stoichiometry of 1:1. Al binding was only reduced in the presence of high concentrations of Ca 2+ (>1 mM). Both citrate and, to a lesser extent, malate were capable of preventing Al lipid binding, which is consistent with the involvement of these organic acids in a recently described Al detoxification mechanism in plants. The effects of AlCl 3, Al-citrate and ZnSO 4 on metal-dependent enzyme activities (enolase, pyruvate kinase, H +-ATPase, myosin, Calpain, proteinase K, phospholipase A 2 and arginase) was assayed in vitro. While Zn 2+ was capable of inhibiting all the enzymes except the H +-ATPase, AlCl 3 and Al-citrate had minimal effects except for with phospholipase A 2 where an interaction with AlCl 3 occurred. However, this could be negated by the addition of citrate. The results indicate that, contrary to current hypotheses, the toxic mode of Al is not through an interaction with enzymatic catalytic metal binding sites but may be through the interaction with specific membrane lipids.

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