Advancements in a FRET Biosensor for Live-Cell Fluorescence-Lifetime High-Throughput Screening of Alpha-Synuclein.

IF 3.9 4区 医学 Q2 NEUROSCIENCES ASN NEURO Pub Date : 2023-01-01 DOI:10.1177/17590914231184086
Anthony R Braun, Noah Nathan Kochen, Samantha L Yuen, Elly E Liao, Razvan L Cornea, David D Thomas, Jonathan N Sachs
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Abstract

There is a critical need for small molecules capable of rescuing pathophysiological phenotypes induced by alpha-synuclein (aSyn) misfolding and oligomerization. Building upon our previous aSyn cellular fluorescence lifetime (FLT)-Förster resonance energy transfer (FRET) biosensors, we have developed an inducible cell model incorporating the red-shifted mCyRFP1/mMaroon1 (OFP/MFP) FRET pair. This new aSyn FRET biosensor improves the signal-to-noise ratio, reduces nonspecific background FRET, and results in a 4-fold increase (transient transfection) and 2-fold increase (stable, inducible cell lines) in FRET signal relative to our previous GFP/RFP aSyn biosensors. The inducible system institutes greater temporal control and scalability, allowing for fine-tuning of biosensor expression and minimizes cellular cytotoxicity due to overexpression of aSyn. Using these inducible aSyn-OFP/MFP biosensors, we screened the Selleck library of 2684 commercially available, FDA-approved compounds and identified proanthocyanidins and casanthranol as novel hits. Secondary assays validated the ability of these compounds to modulate aSyn FLT-FRET. Functional assays probing cellular cytotoxicity and aSyn fibrillization demonstrated their capability to inhibit seeded aSyn fibrillization. Proanthocyanidins completely rescued aSyn fibril-induced cellular toxicity with EC50 of 200 nM and casanthranol supported a 85.5% rescue with a projected EC50 of 34.2 μM. Furthermore, proanthocyanidins provide a valuable tool compound to validate our aSyn biosensor performance in future high-throughput screening campaigns of industrial-scale (million-compound) chemical libraries.

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用于α-突触核蛋白的活细胞荧光寿命高通量筛选的FRET生物传感器的进展。
迫切需要能够拯救由α-突触核蛋白(aSyn)错误折叠和寡聚化诱导的病理生理表型的小分子。在我们之前的aSyn细胞荧光寿命(FLT)-Förster共振能量转移(FRET)生物传感器的基础上,我们开发了一种包含红移mCyRFP1/mMaroon1(OFP/MFP)FRET对的诱导型细胞模型。与我们以前的GFP/RFP-aSyn生物传感器相比,这种新的aSyn FRET生物传感器提高了信噪比,降低了非特异性背景FRET,并导致FRET信号增加了4倍(瞬时转染)和2倍(稳定、可诱导的细胞系)。诱导型系统具有更大的时间控制和可扩展性,允许生物传感器表达的微调,并最大限度地减少由于aSyn过表达引起的细胞毒性。使用这些可诱导的aSyn OFP/MFP生物传感器,我们筛选了2684种可商购的、经美国食品药品监督管理局批准的化合物的Selleck文库,并将原花青素和casanthranol鉴定为新的命中物。二次测定验证了这些化合物调节aSyn FLT-FRET的能力。检测细胞细胞毒性和aSyn原纤维化的功能测定证明了它们抑制种子aSyn原纤化的能力。原花青素以200的EC50完全挽救了aSyn原纤维诱导的细胞毒性 nM和casanthranol支持85.5%的挽救,预计EC50为34.2 μM。此外,原花青素提供了一种有价值的工具化合物,可以在未来工业规模(百万化合物)化学文库的高通量筛选活动中验证我们的aSyn生物传感器的性能。
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来源期刊
ASN NEURO
ASN NEURO NEUROSCIENCES-
CiteScore
7.70
自引率
4.30%
发文量
35
审稿时长
>12 weeks
期刊介绍: ASN NEURO is an open access, peer-reviewed journal uniquely positioned to provide investigators with the most recent advances across the breadth of the cellular and molecular neurosciences. The official journal of the American Society for Neurochemistry, ASN NEURO is dedicated to the promotion, support, and facilitation of communication among cellular and molecular neuroscientists of all specializations.
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