A novel D-amino acid peptide with therapeutic potential (ISAD1) inhibits aggregation of neurotoxic disease-relevant mutant Tau and prevents Tau toxicity in vitro.

Background: Alzheimer's disease (AD), the most common form of dementia, is a progressive neurodegenerative disorder that mainly affects older adults. One of the pathological hallmarks of AD is abnormally aggregated Tau protein that forms fibrillar deposits in the brain. In AD, Tau pathology correlates strongly with clinical symptoms, cognitive dysfunction, and neuronal death.

Potent Tau Aggregation Inhibitor D-Peptides Selected against Tau-Repeat 2 Using Mirror Image Phage Display.

Alzheimer's disease and other Tauopathies are associated with neurofibrillary tangles composed of Tau protein, as well as toxic Tau oligomers. Therefore, inhibitors of pathological Tau aggregation are potentially useful candidates for future therapies targeting Tauopathies. Two hexapeptides within Tau, designated PHF6* (275-VQIINK-280) and PHF6 (306-VQIVYK-311), are known to promote Tau aggregation.

Novel antibody against low-n oligomers of tau protein promotes clearance of tau in cells via lysosomes.

Introduction: Tau, a natively unfolded soluble protein, forms abnormal oligomers and insoluble filaments in several neurodegenerative diseases, including Alzheimer disease (AD). Tau-induced toxicity is mainly due to oligomers rather than monomers or fibrils.

Methods: We have developed monoclonal antibodies against purified low-n tau oligomers of the tau repeat domain as a tool to neutralize tau aggregation and toxicity.

FRET-based Tau seeding assay does not represent prion-like templated assembly of Tau filaments.

Tau aggregation into amyloid fibers based on the cross-beta structure is a hallmark of several Tauopathies, including Alzheimer Disease (AD). Trans-cellular propagation of Tau with pathological conformation has been suggested as a key disease mechanism. This is thought to cause the spreading of Tau pathology in AD by templated conversion of naive Tau in recipient cells into a pathological state, followed by assembly of pathological Tau fibers, similar to the mechanism of nucleated polymerization proposed for prion pathogenesis.

Suppressing Tau Aggregation and Toxicity by an Anti-Aggregant Tau Fragment.

Tau aggregation is a hallmark of a group of neurodegenerative diseases termed Tauopathies. Reduction of aggregation-prone Tau has emerged as a promising therapeutic approach. Here, we show that an anti-aggregant Tau fragment (F3, residues 258-360) harboring the ΔK280 mutation and two proline substitutions (IP & IP) in the repeat domain can inhibit aggregation of Tau constructs in vitro, in cultured cells and in vivo in a Caenorhabditis elegans model of Tau aggregation.

Purification and Characterization of Low-n Tau Oligomers.

Deposition of Tau aggregates in patient's brains is a hallmark of several neurodegenerative diseases collectively called Tauopathies. One of the most studied Tauopathies is Alzheimer disease (AD) in which Tau protein aggregates into filaments and coalesces into neurofibrillary tangles. The distribution of Tau filaments is a reliable indicator of the clinical stages of AD (Braak stages), but intermediate oligomeric assemblies of Tau are considered to be more directly toxic to neurons than late stage filaments.

Extracellular low-n oligomers of tau cause selective synaptotoxicity without affecting cell viability.

Introduction: Tau-mediated toxicity in Alzheimer's disease is thought to operate through low-n oligomers, rather than filamentous aggregates. However, the nature of oligomers and pathways of toxicity are poorly understood. Therefore, we investigated structural and functional aspects of highly purified oligomers of a pro-aggregant tau species.