Biosynthesis of 2 '-Chloropentostatin and 2 '-Amino-2 '-Deoxyadenosine Highlights a Single Gene Cluster Responsible for Two Independent Pathways in Actinomadura sp Strain ATCC 39365

摘要

2'-Chloropentostatin (2'-Cl PTN, 2'-chloro-2'-deoxycoformycin) and 2'amino-2'-deoxyadenosine (2'-amino dA) are two adenosine-derived nucleoside antibiotics coproduced by Actinomadura sp. strain ATCC 39365. 2'-Cl PTN is a potent adenosine deaminase (ADA) inhibitor featuring an intriguing 1,3-diazepine ring, as well as a chlorination at C-2' of ribose, and 2'-amino dA is an adenosine analog showing bioactivity against RNA-type virus infection. However, the biosynthetic logic of them has remained poorly understood. Here, we report the identification of a single gene cluster (ada) essential for the biosynthesis of 2'-Cl PTN and 2'-amino dA. Further systematic genetic investigations suggest that 2'-Cl PTN and 2'-amino dA are biosynthesized by independent pathways. Moreover, we provide evidence that a predicted cation/H+ antiporter, AdaE, is involved in the chlorination step during 2'-Cl PTN biosynthesis. Notably, we demonstrate that 2'-amino dA biosynthesis is initiated by a Nudix hydrolase, AdaJ, catalyzing the hydrolysis of ATP. Finally, we reveal that the host ADA (designated ADA1), capable of converting adenosine/2'-amino dA to inosine/2'-amino dI, is not very sensitive to the powerful ADA inhibitor pentostatin. These findings provide a basis for the further rational pathway engineering of 2'-Cl PTN and 2'-amino dA production.