与EpoY结合的VASH1-SVBP复合物的晶体结构

IF 16.8 1区生物学

Nature Structural &Molecular Biology Pub Date : 2019-06-24 DOI:10.2210/PDB6OCG/PDB

Faxiang Li, Yingjie Hu, Shutao Qi, Xuelian Luo, Hongtao Yu

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引用次数: 2

摘要

微管通过微管蛋白的翻译后修饰来调节。α-微管蛋白羧基末端酪氨酸的连接和切割影响微管在有丝分裂、心肌细胞收缩和神经元过程中的功能。微管蛋白酪氨酸化和去酪氨酸化由微管蛋白酪氨酸连接酶和最近发现的与小血管抑制素结合蛋白（SVBP）结合的微管蛋白去酪氨酸酶血管抑制素1和2（VASH1和VASH2）介导。在这里，我们报道了人VASH1-SVBP单独的晶体结构，与酪氨酸衍生的共价抑制剂复合，并与天然产物孤雌内酯结合。结构和随后的诱变分析解释了微管蛋白脱酪氨酸过程中对SVBP的需求，并揭示了VASH1识别C末端酪氨酸和酸性α-微管蛋白尾部的基础。VASH1 SVBP孤雌内酯结构为设计更有效的血管抑制素化学抑制剂提供了一个框架，这对剖析其生物学功能有价值，并可能具有治疗潜力。

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Crystal structure of VASH1-SVBP complex bound with EpoY

Microtubules are regulated by post-translational modifications of tubulin. The ligation and cleavage of the carboxy-terminal tyrosine of α-tubulin impact microtubule functions during mitosis, cardiomyocyte contraction and neuronal processes. Tubulin tyrosination and detyrosination are mediated by tubulin tyrosine ligase and the recently discovered tubulin detyrosinases, vasohibin 1 and 2 (VASH1 and VASH2) bound to the small vasohibin-binding protein (SVBP). Here, we report the crystal structures of human VASH1-SVBP alone, in complex with a tyrosine-derived covalent inhibitor and bound to the natural product parthenolide. The structures and subsequent mutagenesis analyses explain the requirement for SVBP during tubulin detyrosination, and reveal the basis for the recognition of the C-terminal tyrosine and the acidic α-tubulin tail by VASH1. The VASH1-SVBP-parthenolide structure provides a framework for designing more effective chemical inhibitors of vasohibins, which can be valuable for dissecting their biological functions and may have therapeutic potential.

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来源期刊

Nature Structural &Molecular Biology 生物-生化与分子生物学

自引率

1.80%

发文量

160

期刊介绍： Nature Structural & Molecular Biology is a monthly journal that focuses on the functional and mechanistic understanding of how molecular components in a biological process work together. It serves as an integrated forum for structural and molecular studies. The journal places a strong emphasis on the functional and mechanistic understanding of how molecular components in a biological process work together. Some specific areas of interest include the structure and function of proteins, nucleic acids, and other macromolecules, DNA replication, repair and recombination, transcription, regulation of transcription and translation, protein folding, processing and degradation, signal transduction, and intracellular signaling.