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Title: Polyketide Starter and Extender Units Serve as Regulatory Ligands to Coordinate the Biosynthesis of Antibiotics in Actinomycetes. Author: Wu P, Chen K, Li B, Zhang Y, Wu H, Chen Y, Ren S, Khan S, Zhang L, Zhang B. Journal: mBio; 2021 Oct 26; 12(5):e0229821. PubMed ID: 34579580. Abstract: Polyketides are one of the largest categories of secondary metabolites, and their biosynthesis is initiated by polyketide synthases (PKSs) using coenzyme A esters of short fatty acids (acyl-CoAs) as starter and extender units. In this study, we discover a universal regulatory mechanism in which the starter and extender units, beyond direct precursors of polyketides, function as ligands to coordinate the biosynthesis of antibiotics in actinomycetes. A novel acyl-CoA responsive TetR-like regulator (AcrT) is identified in an erythromycin-producing strain of Saccharopolyspora erythraea. AcrT shows the highest binding affinity to the promoter of the PKS-encoding gene eryAI in the DNA affinity capture assay (DACA) and directly represses the biosynthesis of erythromycin. Propionyl-CoA (P-CoA) and methylmalonyl-CoA (MM-CoA) as the starter and extender units for erythromycin biosynthesis can serve as the ligands to release AcrT from PeryAI, resulting in an improved erythromycin yield. Intriguingly, anabolic pathways of the two acyl-CoAs are also suppressed by AcrT through inhibition of the transcription of acetyl-CoA (A-CoA) and P-CoA carboxylase genes and stimulation of the transcription of citrate synthase genes, which is beneficial to bacterial growth. As P-CoA and MM-CoA accumulate, they act as ligands in turn to release AcrT from those targets, resulting in a redistribution of more A-CoA to P-CoA and MM-CoA against citrate. Furthermore, based on analyses of AcrT homologs in Streptomyces avermitilis and Streptomyces coelicolor, it is believed that polyketide starter and extender units have a prevalent, crucial role as ligands in modulating antibiotic biosynthesis in actinomycetes. IMPORTANCE Numerous antibiotics are derived from polyketides, whose biosynthesis is accurately controlled by transcriptional regulators that respond to diverse physiological or environmental signals. It is generally accepted that antibiotics or biosynthetic intermediates serve as effectors to modulate their production in actinomycetes. Our study unprecedentedly demonstrates that the direct precursors of polyketide, propionyl-CoA and methylmalonyl-CoA, play a role as ligands to modulate erythromycin biosynthesis in Saccharopolyspora erythraea. More importantly, the two acyl-CoAs as ligands could adjust their own supplies by regulating the acetyl-CoA metabolic pathway so as to well settle the relationship between cellular growth and secondary metabolism. Significantly, polyketide starter and extender units have a universal role as ligands to coordinate antibiotic biosynthesis in actinomycetes. These findings not only expand the understanding of ligand-mediated regulation for antibiotic biosynthesis but also provide new insights into the physiological functions of polyketide starter and extender units in actinomycetes.[Abstract] [Full Text] [Related] [New Search]