Natalia A. Luchnikova scite author profile

Oleanane and ursane pentacyclic triterpenoids are secondary metabolites of plants found in various climatic zones and regions. This group of compounds is highly attractive due to their diverse biological properties and possible use as intermediates in the synthesis of new pharmacologically promising substances. By now, their antiviral, anti-inflammatory, antimicrobial, antitumor, and other activities have been confirmed. In the last decade, methods of microbial synthesis of these compounds and their further biotransformation using microorganisms are gaining much popularity. The present review provides clear evidence that industrial microbiology can be a promising way to obtain valuable pharmacologically active compounds in environmentally friendly conditions without processing huge amounts of plant biomass and using hazardous and expensive chemicals. This review summarizes data on distribution, microbial synthesis, and biological activities of native oleanane and ursane triterpenoids. Much emphasis is put on the processes of microbial transformation of selected oleanane and ursane pentacyclic triterpenoids and on the bioactivity assessment of the obtained derivatives.

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Bioconversion of ecotoxic dehydroabietic acid using Rhodococcus actinobacteria

Черемных

Luchnikova

Гришко

et al. 2018

Journal of Hazardous Materials

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Biotransformation of Oleanolic Acid Using Rhodococcus rhodochrous IEGM 757

et al. 2022

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Using the bioresources of the Regional Specialised Collection of Alkanotrophic Microorganisms (acronym IEGM, Perm, Russia; WFCC # 285), R. rhodochrous IEGM 757 was selected, which catalyzed the C5, C22, and C23 functionalization of pentacyclic triterpenoid oleanolic acid (OA, 3β-hydroxyolean-12-en-28-oic acid, 1.0 g/L) to form a new 5α,22α-dihydroxy derivative of gypsogenic acid (3β,5α,22α-trihydroxyolean-12-ene-23,28-dioic acid) for 5 days. In silico analysis showed that, compared to the native triterpenoid, the OA metabolite may be more soluble in water and less ecotoxic, act as an apoptosis agonist and insulin promoter, and have chemopreventive and analgesic effects. Phase-contrast, fluorescent, scanning, and transmission electron microscopy and X-ray spectroscopy demonstrated the high resistance of R. rhodochrous IEGM 757 to OA. This creates opportunities for further research and development of a method for the production of the OA metabolite. New-generation sequencing of the R. rhodochrous IEGM 757 whole genome, annotation and bioinformatics analysis of the obtained sequences, and real-time PCR were applied. As a result, 24 genes encoding CYP450 enzymes were found, which are highly likely to be involved in the process of OA oxidation.

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Biotransformation of (–)-Isopulegol by Rhodococcus rhodochrous

et al. 2022

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The ability of actinobacteria of the genus Rhodococcus to biotransform the monoterpenoid (‒)-isopulegol has been established for the first time. R. rhodochrous strain IEGM 1362 was selected as a bacterium capable of metabolizing (‒)-isopulegol to form new, previously unknown, 10-hydroxy (2) and 10-carboxy (3) derivatives, which may presumably have antitumor activity and act as respiratory stimulants and cancer prevention agents. In the experiments, optimal conditions were selected to provide the maximum target catalytic activity of rhodococci. Using up-to-date (TEM, AFM-CLSM, and EDX) and traditional (cell size, roughness, and zeta potential measurements) biophysical and microbiological methods, it was shown that (‒)-isopulegol and halloysite nanotubes did not negatively affect the bacterial cells. The data obtained expand our knowledge of the biocatalytic potential of rhodococci and their possible involvement in the synthesis of pharmacologically active compounds from plant derivatives.

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