High-molecular-weight oligomer tau (HMWoTau) species are dramatically increased in Braak-stage dependent manner in the frontal lobe of human brains, demonstrated by a novel oligomer Tau ELISA with a mouse monoclonal antibody (APNmAb005).

Disease-specific oligomers Tau assay system is anticipated in Alzheimer disease (AD) to elucidate their etiological roles. We developed a highly sensitive and selective ELISA for high-molecular-weight oligomer tau (HMWoTau) with LLOQ of 0.3 pg/well for the first time, using a novel mouse monoclonal antibody APNmAb005. The target molecule was identified as HMWoTau with circa 2000 kD as a minimum size and the more oligomerized species (>5000 kD), in combination analysis with Size-Exclusion-Chromatography and Sucrose-Density-Gradient-Centrifugation for both recombinant human (rh) Tau-derived aggregates and AD brain-lysates in PBS(-). HMWoTau was labeled by Thioflavin S and visualized as a homogeneous globular particle (about 30 nm in diameter) by two different technologies of atomic force microscopy and dSTORM-Nanoimager. Specific quantitation was also confirmed by immune-absorption, rhHMWoTau-spiked, and cross-reactivity studies. APNmAb005 failed to detect the HMWoTau signal by treatment with DTT/SDS under no influence on the pan-tau antibody, indicating its conformation-specific recognition. APNmAb005-ELISA showed AD-specific and statistically significant ELISA signals from 1 ng brain lysate protein/well. Analysis of the frontal neocortex (N = 40, Braak stage I-VI) by ELISA revealed the detection-limit levels of HMWoTau species at stage I-III, and drastic and statistically significant increases at stage V/VI (AD). By contrast, total Tau and p181 Tau showed 1/4-1/5 levels of AD even at Stage I, while both tau species also showed a statistically significant increase in AD. In sum, our novel APNmAb005-ELISA clarified the disease-specific increase in HMWoTau species and will be useful for not only further etiological elucidation but also the potential diagnostics in AD and relevant tauopathy.
(© 2024 The Author(s). The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)