Site-Specific Hyperphosphorylation Inhibits, Rather than Promotes, Tau Fibrillization, Seeding Capacity, and Its Microtubule Binding

Haj-Yahya Mahmood; Gopinath Pushparathinam; Rajasekhar Kolla; Mirbaha Hilda; Diamond Marc I; Lashuel Hilal A.

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Site-Specific Hyperphosphorylation Inhibits, Rather than Promotes, Tau Fibrillization, Seeding Capacity, and Its Microtubule Binding

机译：特异性特异性的高磷酸化抑制，而不是促进TAU原纤化，播种能力及其微管绑定

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The consistent observation of phosphorylated tau in the pathology of Alzheimer's disease has contributed to the emergence of a model where hyperphosphorylation triggers both tau disassociation from microtubules and its subsequent aggregation. Herein, we applied a total chemical synthetic approach to site-specifically phosphorylate the microtubule binding repeat domain of tau (K18) at single (pS356) or multiple (pS356/pS262 and pS356/pS262/pS258) residues. We show that hyperphosphorylation of K18 inhibits 1) its aggregation in vitro, 2) its seeding activity in cells, 3) its binding to microtubules, and 4) its ability to promote microtubule polymerization. The inhibition increased with increasing the number of phosphorylated sites, with phosphorylation at S262 having the strongest effect. Our results argue against the hyperphosphorylation hypothesis and underscore the importance of revisiting the role of site-specific hyperphosphorylation in regulating tau functions in health and disease.

机译：在阿尔茨海默病病病变中对磷酸化Tau的一致观察有助于出现的模型，其中高磷酸化触发来自微管的Tau脱离和其随后的聚集。在此，我们将总化学合成方法施用于特异性磷酸化TAU（K18）的微管结合重复域，单（PS356）或多个（PS356 / PS262和PS356 / PS262 / PS258）残留物。我们表明K18的高磷酸化抑制了1）其体外聚集，2）其细胞中的播种活性，3）其与微管的结合，4）其促进微管聚合的能力。随着磷酸化位点的数量的增加，抑制增加，磷酸化在S262具有最强的效果。我们的结果反对高磷酸化假设，并强调重新审视现场特异性超磷酸化在调节健康和疾病中的作用的重要性。

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《Angewandte Chemie》 |2020年第10期|共9页
作者
Haj-Yahya Mahmood; Gopinath Pushparathinam; Rajasekhar Kolla; Mirbaha Hilda; Diamond Marc I; Lashuel Hilal A.;
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作者单位

Ecole Polytech Fed Lausanne Brain Mind Inst Lab Mol &

Chem Biol Neurodegenerat Fac Life Sci CH-1015 Lausanne Switzerland;

Ecole Polytech Fed Lausanne Brain Mind Inst Lab Mol &

Chem Biol Neurodegenerat Fac Life Sci CH-1015 Lausanne Switzerland;

Ecole Polytech Fed Lausanne Brain Mind Inst Lab Mol &

Chem Biol Neurodegenerat Fac Life Sci CH-1015 Lausanne Switzerland;

Univ Texas Southwestern Med Ctr Dallas Peter ODonnell Jr Brain Inst Ctr Alzheimers &

Neurodegenerat Dis Dallas TX 75390 USA;

Univ Texas Southwestern Med Ctr Dallas Peter ODonnell Jr Brain Inst Ctr Alzheimers &

Neurodegenerat Dis Dallas TX 75390 USA;

Ecole Polytech Fed Lausanne Brain Mind Inst Lab Mol &

Chem Biol Neurodegenerat Fac Life Sci CH-1015 Lausanne Switzerland;

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正文语种 eng
中图分类应用化学;
关键词
aggregation; hyperphosphorylation; native state stabilization; protein modifications; tau protein;

机译：聚集;超磷酸化;天然状态稳定;蛋白质修饰;Tau蛋白;

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1. Site-Specific Hyperphosphorylation Inhibits, Rather than Promotes, Tau Fibrillization, Seeding Capacity, and Its Microtubule Binding [J] . Haj-Yahya Mahmood, Gopinath Pushparathinam, Rajasekhar Kolla, Angewandte Chemie . 2020,第10期

机译：特异性特异性的高磷酸化抑制，而不是促进TAU原纤化，播种能力及其微管绑定
2. Identification of potent inhibitors of microtubule affinity regulating kinase for inhibition of tau hyperphosphorylation [J] . Alison Levy, Michelle Newman, Janet Brownlees, Molecular neurodegeneration . 2013,第S1期

机译：鉴定抑制tau蛋白过度磷酸化的微管亲和力调节激酶的有效抑制剂
3. Heterotypic seeding of Tau fibrillization by pre-aggregated Abeta provides potent seeds for prion-like seeding and propagation of Tau-pathology in vivo [J] . Vasconcelos Bruno, Stancu Ilie-Cosmin, Buist Arjan, Acta Neuropathologica . 2016,第4期

机译：通过预先聚集的Abeta异型播种Tau纤维化可为pot病毒样播种和Tau病理学在体内的传播提供有力的种子
4. Lithium inhibits tau hyperphosphorylation mediated by glycogen synthase kinase 3 and protein phosphatase 2A in the hippocampus of eight week and twelve month old starved mice [C] . Xiong, S., Lovell, Workshop on Macro, Trace and Ultratrace Elements; 20040924-25; Jena(DE) . 2004

机译：锂抑制八周和十二个月大饥饿小鼠海马中糖原合酶激酶3和蛋白磷酸酶2A介导的tau过度磷酸化
5. Tau and alpha-synuclein fibrillization in vitro: Lessons from surfactant inducers and small molecule inhibitors [D] . Necula, Mihaela 2004

机译：牛磺酸和α-突触核蛋白的体外原纤维化：表面活性剂诱导剂和小分子抑制剂的教训
6. Heterotypic seeding of Tau fibrillization by pre-aggregated Abeta provides potent seeds for prion-like seeding and propagation of Tau-pathology in vivo [O] . Bruno Vasconcelos, Ilie-Cosmin Stancu, Arjan Buist, -1

机译：通过预先聚集的Abeta异型播种Tau纤维化可为pot病毒样播种和Tau病理学在体内的传播提供有力的种子
7. Site-specific hyperphosphorylation of tau inhibits its fibrillization in vitro, blocks its seeding capacity in cells, and disrupts its microtubule binding; Implications for the native state stabilization of tau [O] . Mahmood Haj-Yahya, Pushparathinam Gopinath, Kolla Rajasekhar, 2019

机译：特异性特异性的Tau的高磷酸化在体外抑制其原纤化，阻断其细胞中的播种能力，并破坏其微管结合;对土着国家稳定的影响

Site-Specific Hyperphosphorylation Inhibits, Rather than Promotes, Tau Fibrillization, Seeding Capacity, and Its Microtubule Binding

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