Chromosome 21 contains genes whose altered expression has long been associated with Down's syndrome and whose altered structure with some cases of Alzheimer's disease (AD). The gene for the Cu/Zn superoxide dismutase enzyme (SOD-1), a key enzyme in the metabolism of oxygen free radicals, is located on the distal portion of chromosome 21. Due to the triplication of the SOD-1 gene, patients with Down's syndrome have an almost 50% increase in their SOD activity. On the other hand, almost 25% of the patients with Down's syndrome over 40 years of age develop progressive dementia, with clinical symptoms of AD. Therefore, we decided to evaluate whether abnormalities in the production of free radicals could be detected in blood cells from AD patients, and whether they correlated with molecular variations in the Cu/Zn SOD-1 gene. Superoxide anion production was evaluated spectrophotometrically in suspensions of monocytes from 9 sporadic AD patients, and from 9 aged-matched apparently normal controls. After stimulation with increasing concentrations of n-formyl-methionyl-leucyl-phenylalanine (fMLP) or Ca ionophore A23187, monocyte free radical generation was quantitatively and qualitatively normal. Furthermore, restriction fragment length polymorphism (RFLP) analysis of leukocyte DNA digested with a variety of enzymes, gave comparable results in patients and controls. Our data support the possibility that in addition to the generation of free radicals, other directions should be explored to elucidate the mechanisms of dementia in AD.