阿尔茨海默病磷脂酶 D3 的晶体结构为了解其正常和病理功能提供了分子基础。

The FEBS journal Pub Date : 2024-09-26 DOI:10.1111/febs.17277

Kenta Ishii, Stefan J Hermans, Maria Eleni Georgopoulou, Tracy L Nero, Nancy C Hancock, Gabriela A N Crespi, Michael A Gorman, Jonathan H Gooi, Michael W Parker

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引用次数: 0

摘要

人类 5'-3' 外切酶 PLD3 是磷脂酶 D 家族中的一员，已被证实是治疗阿尔茨海默病的靶点。在这里，我们以 2.3 Å 的分辨率测定了该酶管腔结构域的晶体结构，发现该结构为双叶结构，催化位点位于两叶之间。然后，我们将该结构与已发表的其他人类 PLD 家族成员的晶体结构进行了比较，结果发现，以前被证明对磷脂酶活性至关重要的一些催化和脂质识别残基并不保守或不存在。这促使我们测试这种酶是否真的是一种磷脂酶。我们无法测得任何磷脂酶活性，但该酶显示出强大的核酸酶活性。最后，我们将关键的单核苷酸多态性映射到该结构上，从而揭示了它们对阿尔茨海默病产生影响的合理原因。

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Crystal structure of Alzheimer's disease phospholipase D3 provides a molecular basis for understanding its normal and pathological functions.

Human 5'-3' exonuclease PLD3, a member of the phospholipase D family of enzymes, has been validated as a therapeutic target for treating Alzheimer's disease. Here, we have determined the crystal structure of the luminal domain of the enzyme at 2.3 Å resolution, revealing a bilobal structure with a catalytic site located between the lobes. We then compared the structure with published crystal structures of other human PLD family members which revealed that a number of catalytic and lipid recognition residues, previously shown to be key for phospholipase activity, are not conserved or, are absent. This led us to test whether the enzyme is actually a phospholipase. We could not measure any phospholipase activity but the enzyme shows robust nuclease activity. Finally, we have mapped key single nucleotide polymorphisms onto the structure which reveals plausible reasons as to why they have an impact on Alzheimer's disease.

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The FEBS journal

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