甲基转移酶活性位点周围的氢键网络促成了迷幻药生物合成过程中的第二次甲基化。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-10-16 DOI:10.1002/cbic.202400497
Jesse Hudspeth, Kai Rogge, Tobias Wagner, Maximilian Müll, Dirk Hoffmeister, Bernhard Rupp, Sebastiaan Werten
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引用次数: 0

摘要

Psilocybe cubensis SAM 依赖性甲基转移酶 PsiM 催化了迷幻药生物合成的最后一步。PsiM 可能是从单甲基化 RNA 甲基转移酶进化而来的,它在活性位点的二级球体中获得了一个关键的氨基酸交换位点 M247N,这是它能够进行二甲基化的原因。为了进一步研究 Asn247 在 PsiM 单甲基化和二甲基化中的作用,我们生成了两个变体 PsiMN247M 和 PsiMN247A。每个变体都以三元复合物的形式与非甲基化接受底物去甲胱氨酸和 S-腺苷-l-高半胱氨酸结晶,并以第二种复合物的形式与辅助因子类似物辛弗林和单甲基化底物去甲胱氨酸结晶。与这些变体无法催化第二次甲基转移相一致的是,这些结构揭示了无催化作用的构象以及芍药苷甲胺基团的高度紊乱。此外,这两种变体都表现出了β5-β7 片层的不稳定性以及核心罗斯曼折叠的保守β转折,从而导致底物结合力降低了 20 倍,催化效率降低了 2 倍,即使是在使用去甲aeocystin 的情况下也是如此。
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The Second Methylation in Psilocybin Biosynthesis Is Enabled by a Hydrogen Bonding Network Extending into the Secondary Sphere Surrounding the Methyltransferase Active Site.

The Psilocybe cubensis SAM-dependent methyltransferase, PsiM, catalyzes the last step in the biosynthesis of psilocybin. Likely evolved from monomethylating RNA methyltransferases, PsiM acquired a key amino acid exchange in the secondary sphere of the active site, M247 N, which is responsible for its capacity to dimethylate. Two variants, PsiMN247M and PsiMN247A, were generated to further examine the role of Asn247 for mono- and dimethylation in PsiM. Herein, we present the kinetic profiles of both variants and crystal structures at resolutions between 0.9 and 1.0 Å. Each variant was crystallized as a ternary complex with the non-methylated acceptor substrate, norbaeocystin and S-adenosyl-l-homocysteine, and in a second complex with the cofactor analog, sinefungin, and the monomethylated substrate, baeocystin. Consistent with the inability of the variants to catalyze a second methyl transfer, these structures reveal catalytically non-productive conformations and a high level of disorder of the methylamine group of baeocystin. Additionally, both variants exhibit destabilization in the β5-β7 sheets and a conserved β-turn of the core Rossmann fold, causing 20-fold reduced substrate binding and 2-fold lower catalytic efficiency even with norbaeocystin. Our structural and kinetic analyses of the variants suggest that Asn247 is essential to allow enough space in the active site for multiple methylations while also participating in a network of hydrogen bonds that stabilizes secondary structure elements in the immediate vicinity of the active site for optimal methylation of norbaeocystin.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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