A two-step sulfation in antibiotic biosynthesis requires a type III polyketide synthase

Two families of sulfotransferases are known, but the natural sulfate source for the PAPS-independent enzymes was not clear. Investigation of the caprazamycin pathway reveals a type III PKS generates a chemical reagent that is sulfated by a PAPS-dependent sulfotransferase to generate the unknown sulfate donor. Caprazamycins (CPZs) belong to a group of liponucleoside antibiotics inhibiting the bacterial MraY translocase, an essential enzyme involved in peptidoglycan biosynthesis. We have recently identified analogs that are decorated with a sulfate group at the 2″-hydroxy of the aminoribosyl moiety, and we now report an unprecedented two-step sulfation mechanism during the biosynthesis of CPZs. A type III polyketide synthase (PKS) known as Cpz6 is used in the biosynthesis of a group of new triketide pyrones that are subsequently sulfated by an unusual 3′-phosphoadenosine-5′-phosphosulfate (PAPS)-dependent sulfotransferase (Cpz8) to yield phenolic sulfate esters, which serve as sulfate donors for a PAPS-independent arylsulfate sulfotransferase (Cpz4) to generate sulfated CPZs. This finding is to our knowledge the first demonstration of genuine sulfate donors for an arylsulfate sulfotransferase and the first report of a type III PKS to generate a chemical reagent in bacterial sulfate metabolism.