Monoclonal antibody Y01 prevents tauopathy progression induced by lysine 280–acetylated tau in cell and mouse models
Ha-Lim Song, … , Dong-Hou Kim, Seung-Yong Yoon
Ha-Lim Song, … , Dong-Hou Kim, Seung-Yong Yoon
Published March 14, 2023
Citation Information: J Clin Invest. 2023;133(8):e156537. https://doi.org/10.1172/JCI156537.
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Research Article Neuroscience

Monoclonal antibody Y01 prevents tauopathy progression induced by lysine 280–acetylated tau in cell and mouse models

Abstract

The spatiotemporal pattern of the spread of pathologically modified tau through brain regions in Alzheimer’s disease (AD) can be explained by prion-like cell-to-cell seeding and propagation of misfolded tau aggregates. Hence, to develop targeted therapeutic antibodies, it is important to identify the seeding- and propagation-competent tau species. The hexapeptide 275VQIINK280 of tau is a critical region for tau aggregation, and K280 is acetylated in various tauopathies, including AD. However, the mechanism that links tau acetylated on lysine 280 (tau-acK280) to subsequent progression to neurodegenerative disease remains unclear. Here, we demonstrate that tau-acK280 is critical for tau propagation processes including secretion, aggregation, and seeding. We developed an antibody, Y01, that specifically targets tau-acK280 and solved the crystal structure of Y01 in complex with an acK280 peptide. The structure confirmed that Y01 directly recognizes acK280 and the surrounding residues. Strikingly, upon interaction with acetylated tau aggregates, Y01 prevented tauopathy progression and increased neuronal viability in neuron cultures and in tau-Tg mice through antibody-mediated neutralization and phagocytosis, respectively. Based on our observations that tau-acK280 is a core species involved in seeding and propagation activities, the Y01 antibody that specifically recognizes acK280 represents a promising therapeutic candidate for AD and other neurodegenerative diseases associated with tauopathy.

Authors

Ha-Lim Song, Na-Young Kim, Jaewan Park, Meong Il Kim, Yu-Na Jeon, Se-Jong Lee, Kwangmin Cho, Young-Lim Shim, Kyoung-Hye Lee, Yeon-Seon Mun, Jung-A Song, Min-Seok Kim, Chan-Gi Pack, Minkyo Jung, Hyemin Jang, Duk L. Na, Minsun Hong, Dong-Hou Kim, Seung-Yong Yoon

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Figure 1

Tau K280 acetylation increases aggregation and propagation.

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Tau K280 acetylation increases aggregation and propagation. (A) Left: Re...
(A) Left: Representative immunoblots of tau-HA–expressing donor cell lysates with or without p300 acetyltransferase. Right: Representative immunoblots of culture media from donor cells; immunoprecipitation (IP) was performed with HA antibody. Bottom: Representative immunoblots in recipient cell lysates treated with tau-HA donor cell media for 1 or 20 hours. The lanes in the bottom panel were run on the same gel but were noncontiguous. Ac Lys, anti–acetyl-lysine antibody. (B) Tau aggregation profiles determined by thioflavin-T fluorescence using K18 and acK18. (C) Tau seeding activity in HEK293T tau biosensor cells treated with K18-agg or acK18-agg, as determined by fluorescence resonance energy transfer (FRET). n = 7 per group. (D) Tau aggregation in high–molecular weight species. Primary mouse cortical neurons were treated with equal amounts of K18-mono, K18-agg, acK18-mono, or acK18-agg, and tau was detected by semidenatured immunoblotting using TTC35 antibody. (E) Representative LDH and MTT assays of primary neurons treated with K18-agg and acK18-agg. n = 6 per group. (F) Representative immunoblots of donor cells expressing tau-HA (WT, K174A, K274A, K280A, or K321A) acetylated by p300 acetyltransferase. The second row shows representative immunoblots of HA in conditioned media. IP was performed with HA antibody. The lanes at bottom were run on the same gel but were noncontiguous. (G) Quantification of tau-HA immunoblots of conditioned media from donor cells. n = 6 per group. (H) Tau aggregation determined by thioflavin-T using acK18K280A and acK18. (I) Tau seeding activity by FRET assay with acK18-agg or acK18K280A-agg. n = 6 per group. Statistical analysis was performed by 1-way ANOVA followed by Tukey’s multiple-comparison test. *P < 0.05, **P < 0.01, ***P < 0.001. Data are shown as mean ± SEM.