靶向构象依赖性表位的抗τ抗体选择性结合种子。

The Journal of Biological Chemistry Pub Date : 2023-11-01 Epub Date: 2023-09-14 DOI:10.1016/j.jbc.2023.105252
Brian D Hitt, Ankit Gupta, Ruhar Singh, Ting Yang, Joshua D Beaver, Ping Shang, Charles L White, Lukasz A Joachimiak, Marc I Diamond
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引用次数: 0

摘要

神经退行性τ蛋白病是由τ蛋白从单体转变为毒性聚集体引起的。它们包括阿尔茨海默病(AD)、进行性核上性麻痹(PSP)、皮质基底节变性(CBD)和匹克病(PiD)。我们之前提出,tau单体存在于两种构象系综中:一种是不自组装的惰性形式(Mi),另一种是自组装和模板有序组装生长的种子感受态形式(Ms)。我们提出,tau在P301(显性疾病相关S/L错义突变的位点)的顺式/反式异构化可能是野生型tau向种子感受态转变的基础。因此,我们使用非天然抗原创建了单克隆抗体,该非天然抗原由重复序列1(R1)中类似P270处的氟化脯氨酸(P*)组成,偏向于R1/R2(TENLKHQP*GGGKVQINKK)或R1/R3(TENLKQQP*GGGKVQIVYK)界面处的反式构型。两种抗体,MD2.2和MD3.1,有效地免疫沉淀了AD和PSP的可溶性种子,而不是CBD或PiD脑样本。抗体有效地染色了AD、PSP和PiD的大脑样本,但没有染色CBD。他们没有对对照脑的tau进行免疫沉淀或免疫染色。基于反式脯氨酸表位的强效抗种子抗体的产生暗示P301周围的局部展开在发病机制中。MD2.2和MD3.1也可用于治疗和诊断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Anti-tau antibodies targeting a conformation-dependent epitope selectively bind seeds.

Anti-tau antibodies targeting a conformation-dependent epitope selectively bind seeds.

Anti-tau antibodies targeting a conformation-dependent epitope selectively bind seeds.

Anti-tau antibodies targeting a conformation-dependent epitope selectively bind seeds.

Neurodegenerative tauopathies are caused by the transition of tau protein from a monomer to a toxic aggregate. They include Alzheimer disease (AD), progressive supranuclear palsy (PSP), corticobasal degeneration (CBD), and Pick disease (PiD). We have previously proposed that tau monomer exists in two conformational ensembles: an inert form (Mi), which does not self-assemble, and seed-competent form (Ms), which self-assembles and templates ordered assembly growth. We proposed that cis/trans isomerization of tau at P301, the site of dominant disease-associated S/L missense mutations, might underlie the transition of wild-type tau to a seed-competent state. Consequently, we created monoclonal antibodies using non-natural antigens consisting of fluorinated proline (P∗) at the analogous P270 in repeat 1 (R1), biased toward the trans-configuration at either the R1/R2 (TENLKHQP∗GGGKVQIINKK) or the R1/R3 (TENLKHQP∗GGGKVQIVYK) interfaces. Two antibodies, MD2.2 and MD3.1, efficiently immunoprecipitated soluble seeds from AD and PSP but not CBD or PiD brain samples. The antibodies efficiently stained brain samples of AD, PSP, and PiD, but not CBD. They did not immunoprecipitate or immunostain tau from the control brain. Creation of potent anti-seed antibodies based on the trans-proline epitope implicates local unfolding around P301 in pathogenesis. MD2.2 and MD3.1 may also be useful for therapy and diagnosis.

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