Zinc, which is abundant in senile plaques consisting mainly of fibrillar beta-amyloid (Abeta), plays a critical role in the pathogenesis of Alzheimer's disease. Treatment with zinc chelators such as clioquinol has been used to prevent Abeta aggregation in Alzheimer's patients; however, clioquinol produces severe side effects. A simple, easy, inexpensive, and versatile screen to identify zinc chelators for inhibition of Abeta aggregation is currently unavailable. We thus developed a high-throughput screen that identifies zinc chelators with anti-Abeta aggregation activity. The recombinant Abeta peptides, aggregated on solid-phase microplates, formed Abeta-immunopositive beta-sheet-containing structures in the presence of zinc. Formation of these Abeta fibrils was specifically blocked by metal ion chelators. This screening model improves identification of zinc-enhanced Abeta fibrils and anti-Abeta aggregation mediated by zinc chelating. The convenient system could qualitatively and quantitatively assay a large sample pool for Abeta aggregation inhibition and dissolution of Abeta aggregates. This screen is practical, reliable, and versatile for comprehensive detection of amyloid fibrillation and identification of inhibitors of Abeta aggregation.