定量研究活体中的成核揭示朊病毒样相行为的物理基础。

Quantifying Nucleation In Vivo Reveals the Physical Basis of Prion-like Phase Behavior.

机构信息

Stowers Institute for Medical Research, Kansas City, MO 64110, USA.

Stowers Institute for Medical Research, Kansas City, MO 64110, USA; Department of Molecular and Integrative Physiology, University of Kansas Medical Center, Kansas City, KS 66160, USA.

出版信息

Mol Cell. 2018 Jul 5;71(1):155-168.e7. doi: 10.1016/j.molcel.2018.06.016.

DOI:10.1016/j.molcel.2018.06.016

PMID:29979963

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6086602/

Abstract

Protein self-assemblies modulate protein activities over biological timescales that can exceed the lifetimes of the proteins or even the cells that harbor them. We hypothesized that these timescales relate to kinetic barriers inherent to the nucleation of ordered phases. To investigate nucleation barriers in living cells, we developed distributed amphifluoric FRET (DAmFRET). DAmFRET exploits a photoconvertible fluorophore, heterogeneous expression, and large cell numbers to quantify via flow cytometry the extent of a protein's self-assembly as a function of cellular concentration. We show that kinetic barriers limit the nucleation of ordered self-assemblies and that the persistence of the barriers with respect to concentration relates to structure. Supersaturation resulting from sequence-encoded nucleation barriers gave rise to prion behavior and enabled a prion-forming protein, Sup35 PrD, to partition into dynamic intracellular condensates or to form toxic aggregates. Our results suggest that nucleation barriers govern cytoplasmic inheritance, subcellular organization, and proteotoxicity.

摘要

蛋白质自组装在生物学时间尺度上调节蛋白质活性，这个时间尺度可以超过蛋白质的寿命，甚至超过包含它们的细胞的寿命。我们假设这些时间尺度与有序相成核所固有的动力学障碍有关。为了研究活细胞中的成核障碍，我们开发了分布式两性荧光共振能量转移（DAmFRET）。DAmFRET 利用光可转化荧光团、异质表达和大量细胞数量，通过流式细胞术定量测量蛋白质自组装的程度，作为细胞浓度的函数。我们表明，动力学障碍限制了有序自组装的成核，并且障碍相对于浓度的持久性与结构有关。序列编码的成核障碍导致的过饱和度导致朊病毒行为，并使朊病毒形成蛋白 Sup35 PrD 能够分配到动态的细胞内凝聚物中或形成有毒的聚集体。我们的结果表明，成核障碍控制细胞质遗传、亚细胞组织和蛋白毒性。

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