Streptovitacin B

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Streptovitacin B
Category Antibiotics
Catalog number BBF-03076
CAS 634-50-4
Molecular Weight 297.35
Molecular Formula C15H23NO5

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Description

Streptovitacin B is an antibiotic produced by Str. griseus. It has antifungal and protozoan activity and can inhibit the effect of KB cells.

Specification

IUPAC Name 4-[2-hydroxy-2-(4-hydroxy-3,5-dimethyl-2-oxocyclohexyl)ethyl]piperidine-2,6-dione
Canonical SMILES CC1CC(C(=O)C(C1O)C)C(CC2CC(=O)NC(=O)C2)O
InChI InChI=1S/C15H23NO5/c1-7-3-10(15(21)8(2)14(7)20)11(17)4-9-5-12(18)16-13(19)6-9/h7-11,14,17,20H,3-6H2,1-2H3,(H,16,18,19)
InChI Key JZQFWTNEUBVJCY-UHFFFAOYSA-N

Properties

Appearance Colorless Crystal
Antibiotic Activity Spectrum fungi; parasites; neoplastics (Tumor)
Melting Point 124-128°C

Reference Reading

1. Structure-activity relationship of 9-methylstreptimidone, a compound that induces apoptosis selectively in adult T-cell leukemia cells
Masatoshi Takeiri, Eisuke Ota, Shigeru Nishiyama, Hiromasa Kiyota, Kazuo Umezawa Oncol Res. 2012;20(1):7-14. doi: 10.3727/096504012x13425470196056.
We previously reported that 9-methylstreptimidone, a piperidine compound isolated from a culture filtrate of Streptomyces, induces apoptosis selectively in adult T-cell leukemia cells. It was screened for a compound that inhibits LPS-induced NF-kappaB and NO production in mouse macrophages. However, 9-methystreptimidone is poorly obtained from the producing microorganism and difficult to synthesize. Therefore, in the present research, we studied the structure-activity relationship to look for new selective inhibitors. We found that the structure of the unsaturated hydrophobic portion of 9-methylstreptimidone was essential for the inhibition of LPS-induced NO production. Among the 9-methylstreptimidone-related compounds tested, (+/-)-4,alpha-diepi-streptovitacin A inhibited NO production in macrophage-like cells as potently as 9-methylstreptimidone and without cellular toxicity. Moreover, this compound selectively induced apoptosis in adult T-cell leukemia MT-1 cells.
2. Natural products as drugs and tools for influencing core processes of eukaryotic mRNA translation
Luisa D Burgers, Robert Fürst Pharmacol Res. 2021 Aug;170:105535. doi: 10.1016/j.phrs.2021.105535. Epub 2021 May 29.
Eukaryotic protein synthesis is the highly conserved, complex mechanism of translating genetic information into proteins. Although this process is essential for cellular homoeostasis, dysregulations are associated with cellular malfunctions and diseases including cancer and diabetes. In the challenging and ongoing search for adequate treatment possibilities, natural products represent excellent research tools and drug leads for new interactions with the translational machinery and for influencing mRNA translation. In this review, bacterial-, marine- and plant-derived natural compounds that interact with different steps of mRNA translation, comprising ribosomal assembly, translation initiation and elongation, are highlighted. Thereby, the exact binding and interacting partners are unveiled in order to accurately understand the mode of action of each natural product. The pharmacological relevance of these compounds is furthermore assessed by evaluating the observed biological activities in the light of translational inhibition and by enlightening potential obstacles and undesired side-effects, e.g. in clinical trials. As many of the natural products presented here possess the potential to serve as drug leads for synthetic derivatives, structural motifs, which are indispensable for both mode of action and biological activities, are discussed. Evaluating the natural products emphasises the strong diversity of their points of attack. Especially the fact that selected binding partners can be set in direct relation to different diseases emphasises the indispensability of natural products in the field of drug development. Discovery of new, unique and unusual interacting partners again renders them promising tools for future research in the field of eukaryotic mRNA translation.

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