Ligand Strain and Its Conformational Complexity Is a Major Factor in the Binding of Cyclic Dinucleotides to STING Protein

Smola Miroslav; Gutten Ondrej; Dejmek Milan; Kozisek Milan; Evangelidis Thomas; Tehrani Zahra Aliakbar; Novotna Barbora; Nencka Radim; Birkus Gabriel; Rulisek Lubomir; Boura Evzen

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Ligand Strain and Its Conformational Complexity Is a Major Factor in the Binding of Cyclic Dinucleotides to STING Protein

机译：配体菌株及其构象复杂性是循环二核苷酸与茎蛋白结合的主要因素

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STING (stimulator of interferon genes) is a key regulator of innate immunity that has recently been recognized as a promising drug target. STING is activated by cyclic dinucleotides (CDNs) which eventually leads to expression of type I interferons and other cytokines. Factors underlying the affinity of various CDN analogues are poorly understood. Herein, we correlate structural biology, isothermal calorimetry (ITC) and computational modeling to elucidate factors contributing to binding of six CDNs-three pairs of natural (ribo) and fluorinated (2 '-fluororibo) 3 ',3 '-CDNs. X-ray structural analyses of six {STING:CDN} complexes did not offer any explanation for the different affinities of the studied ligands. ITC showed entropy/enthalpy compensation up to 25 kcal mol(-1) for this set of similar ligands. The higher affinities of fluorinated analogues are explained with help of computational methods by smaller loss of entropy upon binding and by smaller strain (free) energy.

机译：STING（干扰素基因刺激因子）是先天免疫的关键调节因子，最近被认为是一个很有前途的药物靶点。STING被环二核苷酸（CDN）激活，最终导致I型干扰素和其他细胞因子的表达。各种CDN类似物亲和力的基础因素尚不清楚。在此，我们将结构生物学、等温量热法（ITC）和计算建模相关联，以阐明六个CDN结合的因素——三对天然（核糖）和氟化（2'-氟核糖）3'，3'-CDN。六个{STING:CDN}配合物的X射线结构分析没有对所研究配体的不同亲和力提供任何解释。ITC显示，对于这组类似配体，熵/焓补偿高达25 kcal mol（-1）。用计算方法解释了含氟类似物较高的亲和力，结合时熵损失较小，应变（自由）能较小。

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《Angewandte Chemie》 |2021年第18期|共7页
作者
Smola Miroslav; Gutten Ondrej; Dejmek Milan; Kozisek Milan; Evangelidis Thomas; Tehrani Zahra Aliakbar; Novotna Barbora; Nencka Radim; Birkus Gabriel; Rulisek Lubomir; Boura Evzen;
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Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

Czech Acad Sci Inst Organ Chem &

Biochem Gilead Sci Res Ctr IOCB Flemingovo Namesti 2 Prague 16610 Czech Republic;

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正文语种 eng
中图分类应用化学;
关键词
conformational analysis; cyclic dinucleotides; entropy; quantum chemistry; strain energy;

机译：构象分析;环二核苷酸;熵;量子化学;应变能;

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Ligand Strain and Its Conformational Complexity Is a Major Factor in the Binding of Cyclic Dinucleotides to STING Protein

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