多磷酸激酶磷酸化硫胺素磷酸盐

Pub Date : 2023-01-01 Epub Date: 2022-08-30 DOI:10.1159/000526662
Jennie C Hildenbrand, Georg A Sprenger, Attila Teleki, Ralf Takors, Dieter Jendrossek
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引用次数: 2

摘要

聚磷酸激酶(PPKs)催化 ATP(或其他核苷三磷酸)的γ-磷酸分子可逆地转移到不断增长的聚磷酸(polyP)链上。在本研究中,我们描述了不同来源的 PPKs 还能在体外以聚磷酸盐为磷酸盐供体,磷酸化二磷酸硫胺(ThP2),生成三磷酸硫胺(ThP3),甚至四磷酸硫胺。此外,所有被测试的 PPK2s(而非 PPK1s)都能将一磷酸硫胺素(ThP1)磷酸化为 ThP2 和 ThP3,但效率较低。高效液相色谱串联质谱鉴定了单磷酸硫胺素和寡磷酸化硫胺素代谢物的预测质量和特征。此外,ThP2(由 ThP1 与 polyP 和 PPK 磷酸化合成)作为依赖 ThP2 的酶(此处为大肠杆菌的转酮酶 TktA)的辅助因子,其生物活性在耦合酶测定中得到了证实。我们的研究表明,PPKs 在体外是一种杂合酶,在体内可参与多种磷酸化代谢物的形成。
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Polyphosphate Kinases Phosphorylate Thiamine Phosphates.

Polyphosphate kinases (PPKs) catalyze the reversible transfer of the γ-phosphate moiety of ATP (or of another nucleoside triphosphate) to a growing chain of polyphosphate (polyP). In this study, we describe that PPKs of various sources are additionally able to phosphorylate thiamine diphosphate (ThP2) to produce thiamine triphosphate (ThP3) and even thiamine tetraphosphate in vitro using polyP as phosphate donor. Furthermore, all tested PPK2s, but not PPK1s, were able to phosphorylate thiamine monophosphate (ThP1) to ThP2 and ThP3 although at low efficiency. The predicted masses and identities of the mono- and oligo-phosphorylated thiamine metabolites were identified by high-performance liquid chromatography tandem mass spectrometry. Moreover, the biological activity of ThP2, that was synthesized by phosphorylation of ThP1 with polyP and PPK, as a cofactor of ThP2-dependent enzymes (here transketolase TktA from Escherichia coli) was confirmed in a coupled enzyme assay. Our study shows that PPKs are promiscuous enzymes in vitro that could be involved in the formation of a variety of phosphorylated metabolites in vivo.

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