Structure of the Cannabis sativa olivetol-producing enzyme reveals cyclization plasticity in type III polyketide synthases.
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ABSTRACT: In the native pathway to therapeutic cannabinoid biosynthesis in Cannabis sativa, the three-step production of a key intermediate, olivetolic acid, is catalysed by the enzymes tetraketide synthase (TKS; linear tetraketide intermediate production in two stages) and olivetolic acid cyclase (OAC; final C2 ? C7 aldol condensation). In the absence of OAC, a nonenzymatic C2 ? C7 decarboxylative aldol condensation of the tetraketide intermediate occurs forming olivetol. TKS is a type III polyketide synthase, and the question arises why it is unable to form olivetolic acid directly, but instead forms this unwanted side product. We determined the TKS, CoA complex structure, and performed structurally guided mutagenesis studies to identify potential residues responsible for cyclization pathway discrimination in type III polyketide synthases. Prior studies suggested an 'aldol switch' is necessary to allow linear tetraketide intermediate release prior to cyclization, thereby enabling subsequent olivetolic acid production by OAC. However, our studies do not support the presence of a universal or predictable 'aldol switch' consensus sequence. Instead, we propose the mode of ordered active site water activation between type III polyketide synthases catalysing different cyclization mechanisms is subtle and homologue-specific. Our work indicates that subtle structural variations between homologous enzymes can have a major mechanistic impact on the catalytic outcome. This highlights the importance of embedding high-resolution structural analysis of multiple enzyme homologues with classical site-directed mutagenesis studies when investigating highly similar enzymes with different mechanistic pathway outcomes. ENZYMES: TKS, EC 2.3.1.206; OAC, EC 4.4.1.26; chalcone synthase, EC 2.3.1.74; stilbene synthase, EC 2.3.1.95; 2-PS, EC 2.3.1.-. ACCESSION NUMBERS: The atomic coordinates and structure factors for the crystal structure of TKS have been deposited in the Protein Data Bank with accession number 6GW3.
SUBMITTER: Kearsey LJ
PROVIDER: S-EPMC7217186 | biostudies-literature | 2020 Apr
REPOSITORIES: biostudies-literature
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