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使用光开关拟肽对甲基转移酶进行可控抑制:迈向白血病的表观遗传调控

Controlled inhibition of methyltransferases using photoswitchable peptidomimetics: towards an epigenetic regulation of leukemia.

作者信息

Albert Lea, Xu Jing, Wan Ruiwei, Srinivasan Vasundara, Dou Yali, Vázquez Olalla

机构信息

Fachbereich Chemie , Philipps-Universität Marburg , Hans-Meerwein-Strasse 4 , 35043 Marburg , Germany . Email:

Department of Pathology , University of Michigan , Ann Arbor , Michigan 48109 , USA.

出版信息

Chem Sci. 2017 Jun 1;8(6):4612-4618. doi: 10.1039/c7sc00137a. Epub 2017 Apr 27.

DOI:10.1039/c7sc00137a
PMID:28970883
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5618341/
Abstract

We describe a cell-permeable photoswitchable probe capable of modulating epigenetic cellular states by disruption of an essential protein-protein interaction within the MLL1 methyltransferase core complex. Our azobenzene-containing peptides selectively block the WDR5-MLL1 interaction by binding to WDR5 with high affinity ( = 1.25 nM). We determined the co-crystal structure of this photoswitchable peptiomimetic with WDR5 to understand the interaction at the atomic level. Importantly, the photoswitchable and conformers of the probe display a clear difference in their inhibition of MLL1. We further demonstrate that the designed photo-controllable azo-peptidomimetics affect the transcription of the MLL1-target gene Deptor, which regulates hematopoiesis and leukemogenesis, and inhibit the growth of leukemia cells. This strategy demonstrates the potential of photopharmacological inhibition of methyltransferase protein-protein interactions as a novel method for external epigenetic control, providing a new toolbox for controlling epigenetic states.

摘要

我们描述了一种可透过细胞的光开关探针,它能够通过破坏MLL1甲基转移酶核心复合物内的一种关键蛋白质-蛋白质相互作用来调节表观遗传细胞状态。我们含偶氮苯的肽通过与WDR5高亲和力结合(解离常数 = 1.25 nM)来选择性阻断WDR5-MLL1相互作用。我们确定了这种光开关拟肽与WDR5的共晶体结构,以在原子水平上理解这种相互作用。重要的是,探针的光开关顺式和反式构象在对MLL1的抑制作用上表现出明显差异。我们进一步证明,设计的光控偶氮拟肽影响MLL1靶基因Deptor的转录,该基因调节造血和白血病发生,并抑制白血病细胞的生长。这一策略证明了光药理学抑制甲基转移酶蛋白质-蛋白质相互作用作为一种外部表观遗传控制新方法的潜力,为控制表观遗传状态提供了一个新的工具箱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/781234076469/c7sc00137a-f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/25aeb93309bc/c7sc00137a-f7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/781234076469/c7sc00137a-f8.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/18a04abf2341/c7sc00137a-f1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/be3b3130f22f/c7sc00137a-f3.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/563bf427c8a4/c7sc00137a-f5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/f4a330c39a65/c7sc00137a-f6.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/25aeb93309bc/c7sc00137a-f7.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e5e4/5618341/781234076469/c7sc00137a-f8.jpg

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