HIV-Tat protein and amyloid β peptide form multifibrillar structures that cause neurotoxicity

We investigated direct interactions between the human immunodeficiency virus (HIV)-trans-activator of transcription (Tat) protein and amyloid β peptide. Amyloid β-Tat complexes are readily formed extracellularly in the brain. In vitro studies showed that in the presence of Tat, the uniform amyloid fibrils turned into double twisted fibrils followed by populations with thick unstructured filaments and aggregated large patches in a dose-dependent manner. The fibers became more rigid and mechanically resistant. Tat attached externally to fibrils, causing their lateral aggregation into thick multifibrilar structures. These present growth in β sheet and enhanced adhesion. The neurotoxic properties of Tat and amyloid β aggregates were strongly synergistic when complexed together in vitro and in animal models. These data suggest that the increased rigidity and mechanical resistance of the amyloid β-Tat complexes coupled with stronger adhesion due to the presence of Tat in the fibrils accounted for the increased damage, likely through pore formation in membranes.