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29 febrero 2016
PM100117 y PM100118 , New Antitumor Macrolides Produced by a Marine Streptomyces Caniferus GUA-06-05-006A .
En Relación y según publico Nature en Diciembre 2015 : PM100117 and PM100118, Dos Nuevos Antitumorales de Pharma Mar , Muestran Actividad Potente contra Tres Lineas Celulares Tumorales Humanas ( Pulmón , Mama y Colón ) asi mismo Tambien Muestran Actividad AntiFungica Frente a Candida albicans ( Candidiasis ) .
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Characterization and engineering of the biosynthesis gene cluster for antitumor macrolides PM100117 and PM100118 from a marine actinobacteria: generation of a novel improved derivative .
Raúl García Salcedo, Carlos Olano, Cristina Gómez, Rogelio Fernández, Alfredo F. Braña, Carmen Méndez, Fernando de la Calle, José A. Salas
Abstract /// Background :
PM100117 and PM100118 are glycosylated polyketides with remarkable antitumor activity, which derive from the marine symbiotic actinobacteria Streptomyces caniferus GUA-06-05-006A. Structurally, PM100117 and PM100118 are composed of a macrocyclic lactone, three deoxysugar units and a naphthoquinone (NQ) chromophore that shows a clear structural similarity to menaquinone.
Results :
Whole-genome sequencing of S. caniferus GUA-06-05-006A has enabled the identification of PM100117 and PM100118 biosynthesis gene cluster, which has been characterized on the basis of bioinformatics and genetic engineering data. The product of four genes shows high identity to proteins involved in the biosynthesis of menaquinone via futalosine. Deletion of one of these genes led to a decay in PM100117 and PM100118 production, and to the accumulation of several derivatives lacking NQ. Likewise, five additional genes have been genetically characterized to be involved in the biosynthesis of this moiety. Moreover, the generation of a mutant in a gene coding for a putative cytochrome P450 has led to the production of PM100117 and PM100118 structural analogues showing an enhanced in vitro cytotoxic activity relative to the parental products.
Conclusions :
Although a number of compounds structurally related to PM100117 and PM100118 has been discovered, this is, to our knowledge, the first insight reported into their biosynthesis. The structural resemblance of the NQ moiety to menaquinone, and the presence in the cluster of four putative menaquinone biosynthetic genes, suggests a connection between the biosynthesis pathways of both compounds. The availability of the PM100117 and PM100118 biosynthetic gene cluster will surely pave a way to the combinatorial engineering of more derivatives.