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通过位点特异性荧光标记绘制神经元钙传感器GCAP2中的钙敏感区域

Mapping Calcium-Sensitive Regions in the Neuronal Calcium Sensor GCAP2 by Site-Specific Fluorescence Labeling.

作者信息

Sulmann Stefan, Wallisch Melanie, Scholten Alexander, Christoffers Jens, Koch Karl-Wilhelm

机构信息

Biochemistry Group, Department of Neurosciences, Carl von Ossietzky Universität Oldenburg , D-26111 Oldenburg, Germany.

Institut für Chemie, Carl von Ossietzky Universität Oldenburg , D-26111 Oldenburg, Germany.

出版信息

Biochemistry. 2016 May 10;55(18):2567-77. doi: 10.1021/acs.biochem.6b00005. Epub 2016 Apr 29.

Abstract

Myristoylation of most neuronal calcium sensor proteins, a group of EF-hand calcium-binding proteins mainly expressed in neuronal tissue, can have a strong impact on protein dynamics and functional properties. Intracellular oscillations of the free Ca(2+) concentration can trigger conformational changes in Ca(2+) sensors. The position and possible movements of the myristoyl group in the photoreceptor cell-specific Ca(2+) sensor GCAP2 are not well-defined but appear to be different from those of the highly homologous cognate GCAP1. We designed and applied a new group of diaminoterephthalate-derived fluorescent probes to label GCAP2 at a covalently attached 12-azido-dodecanoic acid (a myristoyl substitute) and at cysteine residues in critical positions. Fluorescence emission of dye-labeled GCAP2 decreased when going from low (10(-9) M) to high [Ca(2+)] (10(-3) M), reaching a half-maximal effect of fluorescence emission at 0.44 ± 0.07 μM. The modified acyl group can therefore monitor changes in the protein conformation during binding and dissociation of Ca(2+) in the physiological range of free [Ca(2+)]. However, fluorescence quenching studies showed that the dye-acyl chain was shielded from the quencher by an adjacent polypeptide region. Further probing three cysteine positions (C35, C111, and C131) by dye labeling revealed that all positions were also sensitive to a change in [Ca(2+)], but only one (C131) was sensitive to a change in [Mg(2+)]. We suggest a scenario during illumination of the photoreceptor cell in which Ca(2+) dissociates first from low and medium affinity binding sites. These steps are sensed by dyes in cysteines at positions 35 and 111. Release of Ca(2+) from high affinity sites is sensed by regions adjacent to the dye-labeled fatty acid and involves the critical conformational change leading to activating guanylate cyclase.

摘要

大多数神经元钙传感器蛋白(一类主要在神经元组织中表达的EF手型钙结合蛋白)的肉豆蔻酰化作用,会对蛋白质动力学和功能特性产生强烈影响。细胞内游离Ca(2+)浓度的振荡可引发Ca(2+)传感器的构象变化。在光感受器细胞特异性Ca(2+)传感器GCAP2中,肉豆蔻酰基团的位置和可能的移动尚未明确界定,但似乎与高度同源的同类物GCAP1不同。我们设计并应用了一组新的二氨基对苯二甲酸衍生的荧光探针,以在共价连接的12-叠氮基十二烷酸(一种肉豆蔻酰替代物)以及关键位置的半胱氨酸残基处标记GCAP2。当从低(10(-9) M)到高[Ca(2+)](10(-3) M)时,染料标记的GCAP2的荧光发射降低,在0.44±0.07 μM时达到荧光发射的半最大效应。因此,可以在游离[Ca(2+)]的生理范围内,通过修饰的酰基监测Ca(2+)结合和解离过程中蛋白质构象的变化。然而,荧光猝灭研究表明,染料-酰基链被相邻的多肽区域屏蔽,免受猝灭剂的影响。通过染料标记进一步探测三个半胱氨酸位置(C35、C111和C131)发现,所有位置对[Ca(2+)]的变化也敏感,但只有一个(C131)对[Mg(2+)]的变化敏感。我们提出了一种在光感受器细胞光照期间的情况,其中Ca(2+)首先从低亲和力和中等亲和力结合位点解离。这些步骤由35位和111位半胱氨酸中的染料感知。Ca(2+)从高亲和力位点的释放由与染料标记的脂肪酸相邻的区域感知,并涉及导致激活鸟苷酸环化酶的关键构象变化。

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