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Self-Assembling NanoLuc Luciferase Fragments as Probes for Protein Aggregation in Living Cells.


ABSTRACT: Given the clear role of protein aggregation in human disease, there is a critical need for assays capable of quantifying protein aggregation in living systems. We hypothesized that the inherently low background and biocompatibility of luminescence signal readouts could provide a potential solution to this problem. Herein, we describe a set of self-assembling NanoLuc luciferase (Nluc) fragments that produce a tunable luminescence readout that is dependent upon the solubility of a target protein fused to the N-terminal Nluc fragment. To demonstrate this approach, we employed this assay in bacteria to assess mutations known to disrupt amyloid-beta (A?) aggregation as well as disease-relevant mutations associated with familial Alzheimer's diseases. The luminescence signal from these experiments correlates with the reported aggregation potential of these A? mutants and reinforces the increased aggregation potential of disease-relevant mutations in A?1-42. To further demonstrate the utility of this approach, we show that the effect of small molecule inhibitors on A? aggregation can be monitored using this system. In addition, we demonstrate that aggregation assays can be ported into mammalian cells. Taken together, these results indicate that this platform could be used to rapidly screen for mutations that influence protein aggregation as well as inhibitors of protein aggregation. This method offers a novel, genetically encodable luminescence readout of protein aggregation in living cells.

SUBMITTER: Zhao J 

PROVIDER: S-EPMC5110118 | biostudies-literature | 2016 Jan

REPOSITORIES: biostudies-literature

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Self-Assembling NanoLuc Luciferase Fragments as Probes for Protein Aggregation in Living Cells.

Zhao Jia J   Nelson Travis J TJ   Vu Quyen Q   Truong Tiffany T   Stains Cliff I CI  

ACS chemical biology 20151106 1


Given the clear role of protein aggregation in human disease, there is a critical need for assays capable of quantifying protein aggregation in living systems. We hypothesized that the inherently low background and biocompatibility of luminescence signal readouts could provide a potential solution to this problem. Herein, we describe a set of self-assembling NanoLuc luciferase (Nluc) fragments that produce a tunable luminescence readout that is dependent upon the solubility of a target protein f  ...[more]

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