Neutralization of soluble, synaptotoxic amyloid ß species by antibodies is epitope specific.

ABSTRACT

Several anti-amyloid ß (Aß) antibodies are under evaluation for the treatment of Alzheimer's disease (AD). Clinical studies using the N-terminal-directed anti-Aß antibody bapineuzumab have demonstrated reduced brain PET-Pittsburg-B signals, suggesting the reduction of Aß plaques, and reduced levels of total and phosphorylated tau protein in the CSF of treated AD patients. Preclinical studies using 3D6 (the murine form of bapineuzumab) have demonstrated resolution of Aß plaque and vascular burdens, neuritic dystrophy, and preservation of synaptic density in the transgenic APP mouse models. In contrast, few studies have evaluated the direct interaction of this antibody with synaptotoxic soluble Aß species. In the current report, we demonstrated that 3D6 binds to soluble, synaptotoxic assemblies of Aß(1-42) and prevents multiple downstream functional consequences in rat hippocampal neurons including changes in glutamate AMPA receptor trafficking, AD-type tau phosphorylation, and loss of dendritic spines. In vivo, we further demonstrated that 3D6 prevents synaptic loss and acutely reverses the behavioral deficit in the contextual fear conditioning task in transgenic mouse models of AD, two endpoints thought to be linked to synaptotoxic soluble Aß moieties. Importantly C-terminal anti-Aß antibodies were ineffective on these endpoints. These results, taken with prior studies, suggest that N-terminal anti-Aß antibodies effectively interact with both soluble and insoluble forms of Aß and therefore appear particularly well suited for testing the Aß hypothesis of AD.