Amyloid-beta-protein (A beta) (25-35)-associated free radical generation is strongly influenced by the aggregational state of the peptides.

We investigated whether or not the Amyloid-beta-protein (A beta) itself spontaneously generates free radicals using electron spin resonance (ESR) spectroscopy while also monitoring the aggregational state of A beta and A beta-induced cytotoxicity. The present results demonstrated a four-line spectrum in the presence of A beta25-35 with N-tert-butyl-alpha-phenylnitrone (PBN) but not in the presence of PBN alone in phosphate-buffered saline (PBS). The fact that the four-line spectrum obtained for the A beta25-35/PBN in PBS was completely abolished in the presence of the iron-chelating agent Desferal demonstrated the observed four-line spectrum to be iron-dependent. On the other hand, A beta25-35 with PBN in phosphate buffer (PB) did not produce any definite four-line spectrum. the present results showed the amyloid fibril formation of A beta25-35 in PBS to be much higher than that of A beta25-35 in PB. Moreover, A beta-induced cytotoxicity assays showed A beta incubated in PBS to be more cytotoxic than that incubated in PB. These results thus demonstrate that A beta(25-35)-associated free radical generation is strongly influenced by the aggregational state of the peptides.