Comparative analysis of hapalindole, ambiguine and welwitindolinone gene clusters and reconstitution of indole-isonitrile biosynthesis from cyanobacteria

TitleComparative analysis of hapalindole, ambiguine and welwitindolinone gene clusters and reconstitution of indole-isonitrile biosynthesis from cyanobacteria
Publication TypeJournal Article
Year of Publication2014
AuthorsMicallef M.L, Sharma D., Bunn B.M, Gerwick L, Viswanathan R., Moffitt M.C
JournalBmc Microbiology
Date Published2014/08
Type of ArticleArticle
ISBN Number1471-2180
Accession NumberWOS:000341456900001
Keywordsalkaloids; diversity; fischerella-ambigua; fischerindoles; hapalosiphon-welwitschii; multiple-drug resistance; pseudomonas-aeruginosa; tool

Background: The hapalindole-type family of natural products is a group of hybrid isoprenoid-indole alkaloids, produced solely by members of the Subsection V cyanobacterial strains. This family broadly includes the hapalindoles, welwitindolinones, fisherindoles and ambiguines amongst others, all of which have an isonitrile-or isothiocyanate-containing indole alkaloid skeleton, with a cyclized isoprene unit. The hapalindoles are diversified into the welwitindolinones, fischerindoles and ambiguines through the employment of tailoring oxygenase, methyltransferase and prenyltransferase enzymes. We compare the genetic basis for the biosynthesis of this diverse group of natural products and identify key early biosynthetic intermediates. Results: Whole genome sequencing of freshwater and terrestrial cyanobacteria Westiella intricata UH strain HT-29-1, Hapalosiphon welwitschii UH strain IC-52-3, Fischerella ambigua UTEX 1903 and Fischerella sp. ATCC 43239 led to the identification of a candidate hapalindole-type gene cluster in each strain. These were compared with the recently published ambiguine and welwitindolinone gene clusters and four unpublished clusters identified within publicly available genomes. We present detailed comparative bioinformatic analysis of the gene clusters and the biosynthesis of a pivotal indole-isonitrile intermediate resulting in both cis and trans geometrical isomers. Enzyme analyses and metabolite extractions from two hapalindole-producing Fischerella strains indicate the presence of cis and trans indole-isonitriles as biosynthetic intermediates in the early steps of the pathway. Conclusions: Interestingly, the organization of the welwitindolinone gene cluster is conserved in all producing strains but distinct from the hapalindole and ambiguine clusters. Enzymatic assays using WelI1 and WelI3 from Westiella intricata UH strain HT-29-1 demonstrated the ability to catalyze the formation of both cis and trans geometrical isomers when using a cell lysate. The enzymatic and metabolic characterization of both cis and trans indole-isonitrile intermediates implies conservation of their stereochemical integrity towards members of the ambiguine and welwitindolinone products. In summary, we present data that supports a unified biosynthetic pathway towards hapalindoles in nine individual species of cyanobacteria. Diversification of the pathway occurs later through the employment of specialized enzymatic steps towards fischerindoles, ambiguines and welwitindolinones.

Short TitleBMC Microbiol.
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