Characterization of the Formation of the Pyrrole Moiety during Clorobiocin and Coumermycin A1 Biosynthesis

Abstract

The aminocoumarin antibiotics clorobiocin and coumermycin A₁ target the B subunit of DNA gyrase by presentation of the 5-methyl-pyrrolyl-2-carboxy ester moiety in the ATP-binding site of the enzyme. The pyrrolyl pharmacophore is derived by a four electron oxidation of a prolyl unit while tethered in phosphopantetheinyl thioester linkage to a peptidyl carrier protein (PCP) subunit. l-Proline is selected and activated as l-prolyl-AMP by adenylation domain enzymes (CloN4 and CouN4) and then installed as the thioester on the holo form of the PCP proteins CloN5 and CouN5. Enzymatic oxidation of the prolyl-S-PCP by the flavoprotein dehydrogenase CloN3 can be followed by rapid quench and subsequent electrospray ionization−Fourier transform mass spectrometry analysis of the acyl-S-protein substrate/product mixture to establish that a two-electron oxidized pyrrolinyl-S-enzyme transiently accumulates on the way to the four-electron oxidized, heteroaromatic pyrrolyl-2-carboxy-S-PCP acyl enzyme product.