真菌蛹虫草苷生物合成与保护分子戊烯基硫嘌呤的产生相偶联。

Fungal Cordycepin Biosynthesis Is Coupled with the Production of the Safeguard Molecule Pentostatin.

机构信息

CAS Key Laboratory of Insect Developmental and Evolutionary Biology, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences, Shanghai 200032, China.

出版信息

Cell Chem Biol. 2017 Dec 21;24(12):1479-1489.e4. doi: 10.1016/j.chembiol.2017.09.001. Epub 2017 Oct 19.

DOI:10.1016/j.chembiol.2017.09.001

PMID:29056419

Abstract

Cordycepin (COR) and pentostatin (PTN) are adenosine analogs with related bioactivity profiles as both mimic adenosine and can inhibit some of the processes that are adenosine dependent. Both COR and PTN are also natural products and were originally isolated from the fungus Cordyceps militaris and the bacterium Streptomyces antibioticus, respectively. Here, we report that not only is PTN produced by C. militaris but that biosynthesis of COR is coupled with PTN production by a single gene cluster. We also demonstrate that this coupling is an important point of metabolic regulation where PTN safeguards COR from deamination by inhibiting adenosine deaminase (ADA) activity. ADA is not inhibited until COR reaches self-toxic levels, at which point ADA derepression occurs allowing for detoxification of COR to 3'-deoxyinosine. Finally, we show that using our biosynthetic insights, we can engineer C. militaris to produce higher levels of COR and PTN.

摘要

虫草素 (COR) 和喷司他丁 (PTN) 是两种腺苷类似物，具有相似的生物活性谱，因为它们既能模拟腺苷，又能抑制一些依赖腺苷的过程。COR 和 PTN 都是天然产物，最初分别从真菌蛹虫草和放线菌抗生素中分离得到。在这里，我们报告说，PTN 不仅由蛹虫草产生，而且 COR 的生物合成与 PTN 的产生由单个基因簇偶联。我们还证明，这种偶联是代谢调节的一个重要点，其中 PTN 通过抑制腺苷脱氨酶 (ADA) 活性来保护 COR 免受脱氨作用。只有当 COR 达到自毒水平时，ADA 才会被抑制，此时 ADA 去阻遏发生，允许 COR 解毒为 3'-脱氧肌苷。最后，我们表明，利用我们的生物合成见解，我们可以对蛹虫草进行工程改造，以产生更高水平的 COR 和 PTN。

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真菌蛹虫草苷生物合成与保护分子戊烯基硫嘌呤的产生相偶联。

Fungal Cordycepin Biosynthesis Is Coupled with the Production of the Safeguard Molecule Pentostatin.

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