Promotion of transition metal-induced reactive oxygen species formation by β-amyloid

beta-amyloid protein appears to be involved in the neural degeneration associated with Alzheimer's disease. However, its mechanism of action is poorly understood. The ability of the neurotoxic peptide fragment (25-35) derived from beta-amyloid, to promote the generation of reactive oxygen species (ROS) by a postmitochondrial fraction (P2) derived from rat cerebrocortex, has been examined. The peptide fragment, when incubated together with P2, did not cause excess ROS formation. However, 10 mu M FeSO4 or 10 mu M CuSO4 were able to enhance ROS production in the P2 fraction and this was increased further in the concurrent presence of the 25-35 fragment. The corresponding inverse sequence non-neurotoxic peptide (35-25) had no parallel ability to augment iron-stimulated ROS production suggesting a degree of specificity for the observed effect. There was no formation of excess ROS when the 25-35 peptide and 0.5 mM Al-2(SO4)(3) were incubated with the P2 fraction. However in the presence of both aluminum and iron salts together with the 25-35 peptide, ROS production was augmented to a level significantly higher than that in the absence of aluminum. Polyglutamate, a peptide reported to mitigate aluminum toxicity had no effect on iron-related ROS generation but completely prevented its further potentiation by aluminum. The results indicate that beta-amyloid is able to potentiate the free-radical promoting capacity of metal ions such as iron, copper and aluminum. Such potentiation may be a relevant mechanism underlying beta-amyloid-induced degeneration of nerve cells. (C) 1998 Elsevier Science B.V. All rights reserved.