Cleavage site-directed antibodies reveal the prion protein in humans is shed by ADAM10 at Y226 and associates with misfolded protein deposits in neurodegenerative diseases.

IF 9.3 1区 医学 Q1 CLINICAL NEUROLOGY
Feizhi Song, Valerija Kovac, Behnam Mohammadi, Jessica L Littau, Franka Scharfenberg, Andreu Matamoros Angles, Ilaria Vanni, Mohsin Shafiq, Leonor Orge, Giovanna Galliciotti, Salma Djakkani, Luise Linsenmeier, Maja Černilec, Katrina Hartman, Sebastian Jung, Jörg Tatzelt, Julia E Neumann, Markus Damme, Sarah K Tschirner, Stefan F Lichtenthaler, Franz L Ricklefs, Thomas Sauvigny, Matthias Schmitz, Inga Zerr, Berta Puig, Eva Tolosa, Isidro Ferrer, Tim Magnus, Marjan S Rupnik, Diego Sepulveda-Falla, Jakob Matschke, Lojze M Šmid, Mara Bresjanac, Olivier Andreoletti, Susanne Krasemann, Simote T Foliaki, Romolo Nonno, Christoph Becker-Pauly, Cecile Monzo, Carole Crozet, Cathryn L Haigh, Markus Glatzel, Vladka Curin Serbec, Hermann C Altmeppen
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引用次数: 0

Abstract

Proteolytic cell surface release ('shedding') of the prion protein (PrP), a broadly expressed GPI-anchored glycoprotein, by the metalloprotease ADAM10 impacts on neurodegenerative and other diseases in animal and in vitro models. Recent studies employing the latter also suggest shed PrP (sPrP) to be a ligand in intercellular communication and critically involved in PrP-associated physiological tasks. Although expectedly an evolutionary conserved event, and while soluble forms of PrP are present in human tissues and body fluids, for the human body neither proteolytic PrP shedding and its cleavage site nor involvement of ADAM10 or the biological relevance of this process have been demonstrated thus far. In this study, cleavage site prediction and generation (plus detailed characterization) of sPrP-specific antibodies enabled us to identify PrP cleaved at tyrosin 226 as the physiological and apparently strictly ADAM10-dependent shed form in humans. Using cell lines, neural stem cells and brain organoids, we show that shedding of human PrP can be stimulated by PrP-binding ligands without targeting the protease, which may open novel therapeutic perspectives. Site-specific antibodies directed against human sPrP also detect the shed form in brains of cattle, sheep and deer, hence in all most relevant species naturally affected by fatal and transmissible prion diseases. In human and animal prion diseases, but also in patients with Alzheimer`s disease, sPrP relocalizes from a physiological diffuse tissue pattern to intimately associate with extracellular aggregated deposits of misfolded proteins characteristic for the respective pathological condition. Findings and research tools presented here will accelerate novel insight into the roles of PrP shedding (as a process) and sPrP (as a released factor) in neurodegeneration and beyond.

Abstract Image

裂解位点定向抗体揭示了人类的朊病毒蛋白是通过 ADAM10 的 Y226 位点脱落的,并与神经退行性疾病中的错误折叠蛋白沉积有关。
朊病毒蛋白(PrP)是一种广泛表达的 GPI-锚定糖蛋白,金属蛋白酶 ADAM10 对其细胞表面的蛋白水解释放("脱落")会影响动物和体外模型中的神经退行性疾病和其他疾病。最近利用后者进行的研究还表明,脱落的 PrP(sPrP)是细胞间通信的配体,并关键性地参与了 PrP 相关的生理任务。虽然这是一个进化保守事件,而且可溶形式的 PrP 存在于人体组织和体液中,但对于人体来说,蛋白水解 PrP 的脱落及其裂解位点、ADAM10 的参与或这一过程的生物学相关性迄今都没有得到证实。在这项研究中,裂解位点预测和sPrP特异性抗体的产生(以及详细特征描述)使我们能够确定在酪氨酸226处裂解的PrP是生理性的、显然严格依赖于ADAM10的脱落形式。我们利用细胞系、神经干细胞和脑器官组织显示,人PrP的脱落可由PrP结合配体刺激,而无需靶向蛋白酶,这可能会开辟新的治疗前景。针对人类 sPrP 的位点特异性抗体也能在牛、羊和鹿的大脑中检测到脱落的形式,因此在所有受致命性和传染性朊病毒疾病自然影响的最相关物种中都能检测到。在人类和动物朊病毒疾病中,以及在阿尔茨海默病患者体内,sPrP 会从生理性弥散组织模式重新定位,与细胞外错误折叠蛋白的聚集沉积密切相关,这也是各自病理状况的特征。本文介绍的发现和研究工具将加速人们对 PrP 脱落(作为一种过程)和 sPrP(作为一种释放因子)在神经变性及其他方面的作用的新认识。
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来源期刊
Acta Neuropathologica
Acta Neuropathologica 医学-病理学
CiteScore
23.70
自引率
3.90%
发文量
118
审稿时长
4-8 weeks
期刊介绍: Acta Neuropathologica publishes top-quality papers on the pathology of neurological diseases and experimental studies on molecular and cellular mechanisms using in vitro and in vivo models, ideally validated by analysis of human tissues. The journal accepts Original Papers, Review Articles, Case Reports, and Scientific Correspondence (Letters). Manuscripts must adhere to ethical standards, including review by appropriate ethics committees for human studies and compliance with principles of laboratory animal care for animal experiments. Failure to comply may result in rejection of the manuscript, and authors are responsible for ensuring accuracy and adherence to these requirements.
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