6 active compounds to rediscover rare bacterial metabolites

Activators, inhibitors and small molecules screening and enzyme profiling

6 active compounds to rediscover rare bacterial metabolitesMicrobial metabolites are a source of unequalled elements for in vitro assays. Sometimes  neglected, these active molecules naturally provide a large spectrum of structural diversity for Drug discovery and antibiotics development programs. In this post, 6 metabolites and their respective properties are highlighted with the hope of refreshing our minds, a little bit, of the importance of such molecules in innovative research discovery.

Active compound #1- Oligomycin A

Oligomycins induce apoptosis in a wide range of tumor cell lines. Isolated from a Streptomyces sp., oligomycins have a broad biological profile, including anti-fungal, anti-tumor and nematocidal activities. Oligomycin A (CAS 579-13-5) inhibits F1F0-ATPase involved in oxidative phosphorylation of ADP to ATP.

Active compound #2- Leucomycin A5

Oligomycin A, Leucomycin A5, Enniatin A chemical structure - Rare micobial metabolites tebu-bio
Oligomycin A, Leucomycin A5, Enniatin A chemical structures – Rare micobial metabolites tebu-bio.

Leucomycin A5 (CAS 18361-45-0) is a rare and potent antibiotic and a major metabolite of the Leucomycin complex (family of closely related macrocyclic lactone antibiotics produced by Streptomyces kitasatoensis). Leucomycin complex is used as an animal health product for control of gram positive bacteria, gram negative cocci, leptospira and mycoplasma.

Active compound #3- Enniatin A

Enniatins are depsipeptide mycotoxins produced by several Fusarium species. They act as ionophores with phytotoxic, antibiotic, and insecticidal functions. Enniatin A (Laritin I) (CAS 2503-13-1) is one of four major analogues of the enniatin complex.

 

Active compound #4- Nemadectin

IHC-P analysis of human urothelial carcinoma tissue using anti Cdk4 antibody [EPR4513] (210GTX63389).
IHC-P analysis of human urothelial carcinoma tissue using anti Cdk4 antibody [EPR4513] (210GTX63389).
Nemadectin (CAS 102130-84-7) is a member of a class of Milbemycins, isolated from streptomyces with nematocidal and insecticidal activity. Nemadectin is the starting material for the commercially-available anthelmintic Moxidectin (Milbemycin B).

Active compound #5- Ophiobolin A

Ophiobolin A (CAS 4611-05-6) is a phytotoxin produced by Bipolaris and other plant pathogenic fungi. Ophiobolin A has been shown to induce paraptosis-like cell death in human glioblastoma cells and to inhibit Calmodulin in regulating calcium.

Active compound #6- Staurosporine

Staurosporine (CAS 62996-74-1) is an unusual indolocarbazole alkaloid produced by a range of actinomycetes. Staurosporine and derivatives are “apoptosis inducers” which have anti-tumor functions, and inhibit many kinases (ex. PKC, TKs, CDK2/cyclin A and CDK4/cyclin D…).

I’d like to thank David Antonjuk (BioAustralis Fine Chemicals) for his support in editing this post.

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2 responses

  1. Both impurities and metabolites play an important role in drug discovery. Generally, new matter may be inspired by the analysis. By learning the molecule metabolites listed in the post can be very helpful to acquire a pattern that how to study them.

    1. Thank you Linna.
      It is true that Drug discoverers are more and more keen to collect significant sets of comprehensive and meaningful biological data, early on in the developmental phases of their promising new drug candidates. To meet these needs, it is possible to acquire metabolites like the ones described in this post, produced by specialized brands (BioAustralis, MedChem101…).

      Another interesting alternative is to outsource Drug Metabolism and Analytical Chemistry to CROs. This is the case with Xenotech LLC. Xenotech are now offering new metabolite profiling services for in vitro drug metabolism studies from small amounts of researcher’s valuable active test compounds. XenoTech’s scientists can screen valuable drug compounds by exposing them to drug-metabolizing enzymes derived from highly qualified human liver cells, or hepatocytes. The resulting production of metabolites is monitored by High Definition Mass Spectrometry.

      Such studies give researchers an early indication whether their drug candidate could cause adverse consequences in vivo, thus alleviating the need for expensive and time-consuming pre-clinical animal studies (risks related to toxicity drug-drug interference, adverse-drug reaction…). Whatever the experimental approach, feel free to contact tebu-bio in Europe for further discussions.

      Regards,
      Philippe

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