GliP, a Multimodular Nonribosomal Peptide Synthetase inAspergillus fumigatus, Makes the Diketopiperazine Scaffold of Gliotoxin

Abstract

The fungal metabolite gliotoxin has a redox-active disulfide bridge spanning carbons 3 and 6 of a diketopiperazine (DKP) scaffold. The proposed DKP synthetase, GliP, from Aspergillus fumigatus Af293, is a three module (A₁-T₁-C₁-A₂-T₂-C₂-T₃) 236 kDa protein that can be overproduced in soluble form in Escherichia coli. Once primed on its three thiolation domains with phosphopantetheine prosthetic groups, GliP activates and tethers l-Phe on T₁ and l-Ser on T₂, before generating the l-Phe-l-Ser-S-T₂ dipeptidyl enzyme intermediate. Release of the dipeptide as the cyclic DKP happens slowly both in wild-type GliP and in enzyme forms where C₂ and T₃ have been mutationally inactivated. The lack of a thioesterase domain in GliP may account both for the slow release and for the directed fate of intramolecular cyclization to create the DKP scaffold for subsequent elaboration to gliotoxin.