ABSTRACT
Brasilicardinâ A (1) consists of an unusual anti/syn/anti-perhydrophenanthrene skeleton with a carbohydrate side chain and an amino acid moiety. It exhibits potent immunosuppressive activity, yet its mode of action differs from standard drugs that are currently in use. Further pre-clinical evaluation of this promising, biologically active natural product is hampered by restricted access to the ready material, as its synthesis requires both a low-yielding fermentation process using a pathogenic organism and an elaborate, multi-step total synthesis. Our semi-synthetic approach included a) the heterologous expression of the brasilicardinâ A gene cluster in different non-pathogenic bacterial strains producing brasilicardinâ A aglycone (5) in excellent yield and b) the chemical transformation of the aglycone 5 into the trifluoroacetic acid salt of brasilicardinâ A (1 a) via a short and straightforward five-steps synthetic route. Additionally, we report the first preclinical data for brasilicardinâ A.
Subject(s)
Aminoglycosides/metabolism , Genetic Engineering , Immunosuppressive Agents/chemical synthesis , Alkyl and Aryl Transferases/genetics , Aminoglycosides/chemical synthesis , Aminoglycosides/chemistry , Aminoglycosides/pharmacology , Animals , Biological Products/chemical synthesis , Biological Products/chemistry , Biological Products/metabolism , Biological Products/pharmacology , Cell Line , Cell Survival/drug effects , Humans , Immunosuppressive Agents/chemistry , Immunosuppressive Agents/metabolism , Immunosuppressive Agents/pharmacology , Mice , Plasmids/genetics , Plasmids/metabolism , Streptomyces/genetics , Streptomyces/metabolism , Terpenes/chemistryABSTRACT
Brasilicardin A (BraA) is a promising immunosuppressive compound produced naturally by the pathogenic bacterium Nocardia terpenica IFM 0406. Heterologous host expression of brasilicardin gene cluster showed to be efficient to bypass the safety issues, low production levels and lack of genetic tools related with the use of native producer. Further improvement of production yields requires better understanding of gene expression regulation within the BraA biosynthetic gene cluster (Bra-BGC); however, the only so far known regulator of this gene cluster is Bra12. In this study, we discovered the protein LysRNt, a novel member of the LysR-type transcriptional regulator family, as a regulator of the Bra-BGC. Using in vitro approaches, we identified the gene promoters which are controlled by LysRNt within the Bra-BGC. Corresponding genes encode enzymes involved in BraA biosynthesis as well as the key Bra-BGC regulator Bra12. Importantly, we provide in vivo evidence that LysRNt negatively affects production of brasilicardin congeners in the heterologous host Amycolatopsis japonicum. Finally, we demonstrate that some of the pathway related metabolites, and their chemical analogs, can interact with LysRNt which in turn affects its DNA-binding activity.
ABSTRACT
The isoprenoid brasilicardin A is a promising immunosuppressant compound with a unique mode of action, high potency and reduced toxicity compared to today's standard drugs. However, production of brasilicardin has been hampered since the producer strain Nocardia terpenica IFM0406 synthesizes brasilicardin in only low amounts and is a biosafety level 2 organism. Previously, we were able to heterologously express the brasilicardin gene cluster in the nocardioform actinomycete Amycolatopsis japonicum. Four brasilicardin congeners, intermediates of the BraA biosynthesis, were produced. Since chemical synthesis of the brasilicardin core structure has remained elusive we intended to produce high amounts of the brasilicardin backbone for semi synthesis and derivatization. Therefore, we used a metabolic engineering approach to increase heterologous production of brasilicardin in A. japonicum. Simultaneous heterologous expression of genes encoding the MVA pathway and expression of diterpenoid specific prenyltransferases were used to increase the provision of the isoprenoid precursor isopentenyl diphosphate (IPP) and to channel the precursor into the direction of diterpenoid biosynthesis. Both approaches contributed to an elevated heterologous production of the brasilicardin backbone, which can now be used as a starting point for semi synthesis of new brasilicardin congeners with better properties.
ABSTRACT
Nocardia terpenica IFM 0406 is the producer of the immunosuppressants brasilicardins A-D. Brasilicardin is a promising compound because of its unique mode of action and its higher potency and reduced toxicity compared to today's standard drugs. However, production of brasilicardin is so far hampered as Nocardia terpenica IFM 0406 synthesizes brasilicardin in only low amounts and represents a human pathogen (biosafety level 2 BSL2). In order to achieve a safe and high yield production of brasilicardin A (BraA), the authors heterologously express the brasilicardin gene cluster in the nocardioform actinomycete Amycolatopsis japonicum (A. japonicum::bcaAB01), which is fast growing, genetically accessible and closely related to N. terpenica IFM 0406. In A. japonicum::bcaAB01, four brasilicardin congeners, intermediates of the BraA biosynthesis, are produced. Investigation of the genes flanking the previously defined brasilicardin biosynthetic gene cluster revealed two novel genes (bra0, bra12), which are involved in brasilicardin biosynthesis: bra12 encodes a transcriptional activator of the brasilicardin gene cluster. bra0 codes for a dioxygenase involved in methoxylation of brasilicardin. Based on this finding the authors are able to revise the proposed brasilicardin biosynthesis.
Subject(s)
Actinomycetales/genetics , Aminoglycosides/biosynthesis , Bacterial Proteins/genetics , Multigene Family , Trans-Activators/genetics , Actinomycetales/metabolism , Aminoglycosides/genetics , Bacterial Proteins/metabolism , Immunosuppressive Agents , N-Acetylglucosaminyltransferases/genetics , N-Acetylglucosaminyltransferases/metabolism , Nocardia/genetics , Nocardia/metabolism , Trans-Activators/metabolism , Transcription Factors/genetics , Transcription Factors/metabolismABSTRACT
The bacterium Nocardia terpenica IFM 0406 is known as the producer of the immunosuppressant brasilicardin A. Here, we report the completely sequenced genome of strain IFM 0406, which facilitates the heterologous expression of the brasilicardin biosynthetic gene cluster but also unveils the intriguing biosynthetic capacity of the strain to produce secondary metabolites.