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红色荧光蛋白 XS 突变体具有增强的钙离子敏感性和生物发光输出,可有效报告细胞和神经元网络活动。

RedquorinXS Mutants with Enhanced Calcium Sensitivity and Bioluminescence Output Efficiently Report Cellular and Neuronal Network Activities.

机构信息

Institut de Neurobiologie Alfred Fessard, UPR 3294, Centre National de la Recherche Scientifique (CNRS), Avenue de la Terrasse, 91198 Gif-sur-Yvette, France.

BioEmergences Unit, CNRS USR 3695, Université Paris-Saclay, Avenue de la Terrasse, 91198 Gif-sur-Yvette, France.

出版信息

Int J Mol Sci. 2020 Oct 22;21(21):7846. doi: 10.3390/ijms21217846.

DOI:10.3390/ijms21217846
PMID:33105848
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7660078/
Abstract

Considerable efforts have been focused on shifting the wavelength of aequorin Ca-dependent blue bioluminescence through fusion with fluorescent proteins. This approach has notably yielded the widely used GFP-aequorin (GA) Ca sensor emitting green light, and tdTomato-aequorin (Redquorin), whose bioluminescence is completely shifted to red, but whose Ca sensitivity is low. In the present study, the screening of aequorin mutants generated at twenty-four amino acid positions in and around EF-hand Ca-binding domains resulted in the isolation of six aequorin single or double mutants (AequorinXS) in EF2, EF3, and C-terminal tail, which exhibited markedly higher Ca sensitivity than wild-type aequorin in vitro. The corresponding Redquorin mutants all showed higher Ca sensitivity than wild-type Redquorin, and four of them (RedquorinXS) matched the Ca sensitivity of GA in vitro. RedquorinXS mutants exhibited unaltered thermostability and peak emission wavelengths. Upon stable expression in mammalian cell line, all RedquorinXS mutants reported the activation of the P2Y2 receptor by ATP with higher sensitivity and assay robustness than wt-Redquorin, and one, RedquorinXS-Q159T, outperformed GA. Finally, wide-field bioluminescence imaging in mouse neocortical slices showed that RedquorinXS-Q159T and GA similarly reported neuronal network activities elicited by the removal of extracellular Mg. Our results indicate that RedquorinXS-Q159T is a red light-emitting Ca sensor suitable for the monitoring of intracellular signaling in a variety of applications in cells and tissues, and is a promising candidate for the transcranial monitoring of brain activities in living mice.

摘要

研究人员通过与荧光蛋白融合,致力于改变发光蛋白发光颜色,进而改变发光蛋白的钙离子依赖性蓝色生物发光的波长。该方法成功得到了广泛应用的 GFP-aequorin(GA)Ca 传感器(发绿光)和 tdTomato-aequorin(Redquorin)(发光完全转移到红色,但 Ca 敏感性低)。在本研究中,对 EF 手 Ca 结合域内和周围 24 个氨基酸位置的发光蛋白突变体进行筛选,分离得到 6 种 EF2、EF3 和 C 末端尾部的发光蛋白单或双突变体(AequorinXS),这些突变体的体外 Ca 敏感性明显高于野生型发光蛋白。相应的 Redquorin 突变体均表现出比野生型 Redquorin 更高的 Ca 敏感性,其中 4 种(RedquorinXS)的 Ca 敏感性与 GA 相当。RedquorinXS 突变体的热稳定性和峰值发射波长没有改变。在哺乳动物细胞系中稳定表达时,所有报告的 RedquorinXS 突变体均比 wt-Redquorin 更敏感地检测到 P2Y2 受体被 ATP 激活,并且其中一个突变体(RedquorinXS-Q159T)比 GA 表现更好。最后,在小鼠新皮层切片的宽场生物发光成像中,RedquorinXS-Q159T 和 GA 同样报告了细胞外 Mg 去除引起的神经元网络活动。我们的研究结果表明,RedquorinXS-Q159T 是一种适合在细胞和组织中监测细胞内信号的红色发光 Ca 传感器,是在活体小鼠中进行大脑活动经颅监测的有前途的候选物。

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