A number of distinct -amyloid (A) variants or multimers have been implicated in Alzheimer's disease (AD), and antibodies recognizing such peptides are in clinical trials. Humans have natural A-specific antibodies, but their diversity, abundance, and function in the general population remain largely unknown. Here, we demonstrate with peptide microarrays the presence of natural antibodies against known toxic A and amyloidogenic non-A species in plasma samples and cerebrospinal fluid of AD patients and healthy controls aged 21-89 years. Antibody reactivity was most prominent against oligomeric assemblies of A and pyroglutamate or oxidized residues, and IgGs specific for oligomeric preparations of A1-42 in particular declined with age and advancing AD. Most individuals showed unexpected antibody reactivities against peptides unique to autosomal dominant forms of dementia (mutant A, ABri, ADan) and IgGs isolated from plasma of AD patients or healthy controls protected primary neurons from A toxicity. Aged vervets showed similar patterns of plasma IgG antibodies against amyloid peptides, and after immunization with A the monkeys developed high titers not only against A peptides but also against ABri and ADan peptides. Our findings support the concept of conformation-specific, cross-reactive antibodies that may protect against amyloidogenic toxic peptides. If a therapeutic benefit of A antibodies can be confirmed in AD patients, stimulating the production of such neuroprotective antibodies or passively administering them to the elderly population may provide a preventive measure toward AD. A lzheimer's disease (AD) is the most common cause of dementia, affecting an estimated 5.3 million individuals in the United States alone. Deposits of -amyloid peptide (A) in extracellular plaques characterize the AD brain, but soluble oligomeric A species appear to be more neurotoxic than plaques and interfere with synaptic function (reviewed in ref. 1). Notably, most A peptides isolated from AD brains are posttranslationally modified and truncated (2-6), and some are proposed to be oxidized (7,8) or cross-linked at Tyr-10 (9). Although the pathogenic consequences of these modifications need to be resolved, most of them can stabilize A assemblies, interfere with proteolytic degradation, and increase A toxicity in vitro (7,8,10).One line of defense against toxic A species could be neutralizing antibodies. Stimulating the production of A antibodies by active immunization with synthetic A (11) or administering monoclonal A antibodies (12, 13) reduced amyloid pathology and inflammation and improved cognitive function in mouse models of AD (14). In patients with mild to moderate AD active immunization appears to reduce plaque load (15), and in some patients production of A antibodies correlated with attenuated cognitive decline (16). It has also been suggested that antibodies recognizing different domains (12,13,17) or conformations (18, 19) of A may have different efficacy in humans.Interestingly, antibodies agai...
