Klim A. Leonov scite author profile

The research of the degree of oil biodegradation by gas chromatography and individual classes of hydrocarbons by various strains of hydrocarbon-oxidizing microorganisms isolated from indigenous microflora of oil fields was carried out. It has been shown that some of the investigated strains of hydrocarbon-oxidizing microorganisms are 100% capable to biotransform naphthenes and olefins, showing high activity in the destruction of paraffins and isoparaffins. There are no signs of biodegradation of aromatic compounds due to the large duration of the process. All investigated strains of hydrocarbon-oxidizing microorganisms are largely able to reduce the total number of individual components of oil. The obtained data can be used to develop new biologics of the purpose

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Development and validation of HPLC-UV method for quantitation of a new antithrombotic drug in rat plasma and its application to pharmacokinetic studies

Leonov¹,

Vishenkova

Lipskikh

et al. 2020

Journal of Chromatography B

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Synthesis, Biological Evaluation, and Molecular Modeling of Aza-Crown Ethers

Basok¹,

Schepetkin

Khlebnikov

et al. 2021

Molecules

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Synthetic and natural ionophores have been developed to catalyze ion transport and have been shown to exhibit a variety of biological effects. We synthesized 24 aza- and diaza-crown ethers containing adamantyl, adamantylalkyl, aminomethylbenzoyl, and ε-aminocaproyl substituents and analyzed their biological effects in vitro. Ten of the compounds (8, 10–17, and 21) increased intracellular calcium ([Ca2+]i) in human neutrophils, with the most potent being compound 15 (N,N’-bis[2-(1-adamantyl)acetyl]-4,10-diaza-15-crown-5), suggesting that these compounds could alter normal neutrophil [Ca2+]i flux. Indeed, a number of these compounds (i.e., 8, 10–17, and 21) inhibited [Ca2+]i flux in human neutrophils activated by N-formyl peptide (fMLF). Some of these compounds also inhibited chemotactic peptide-induced [Ca2+]i flux in HL60 cells transfected with N-formyl peptide receptor 1 or 2 (FPR1 or FPR2). In addition, several of the active compounds inhibited neutrophil reactive oxygen species production induced by phorbol 12-myristate 13-acetate (PMA) and neutrophil chemotaxis toward fMLF, as both of these processes are highly dependent on regulated [Ca2+]i flux. Quantum chemical calculations were performed on five structure-related diaza-crown ethers and their complexes with Ca2+, Na+, and K+ to obtain a set of molecular electronic properties and to correlate these properties with biological activity. According to density-functional theory (DFT) modeling, Ca2+ ions were more effectively bound by these compounds versus Na+ and K+. The DFT-optimized structures of the ligand-Ca2+ complexes and quantitative structure–activity relationship (QSAR) analysis showed that the carbonyl oxygen atoms of the N,N’-diacylated diaza-crown ethers participated in cation binding and could play an important role in Ca2+ transfer. Thus, our modeling experiments provide a molecular basis to explain at least part of the ionophore mechanism of biological action of aza-crown ethers.

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Optimization of application schedule of camphecene, a novel anti‐influenza compound, based on its pharmacokinetic characteristics

Zarubaev

Гаршинина

Volobueva

et al. 2022

Fundamemntal Clinical Pharma

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Due to high variability and rapid life cycle, influenza virus is able to develop drug resistance against direct‐acting antivirals. Development of novel virus‐in113039hibiting drugs is therefore important goal. Previously, we identified camphor derivative, camphecene, as an effective anti‐influenza compound. In the present study, we optimize the regimen of its application to avoid high sub‐toxic concentrations. The protective activity of camphecene was assessed on the model of lethal pneumonia of mice caused by influenza viruses. Camphecene was administered either once a day or four times a day, alone or in combination with Tamiflu. Mortality and viral titer in the lungs were studied. Pharmacokinetics of camphecene was studied in rabbits. We have demonstrated that camphecene, being used every 6 h at a dose of 7.5 mg/kg/day, results in antiviral effect that was statistically equal to the effect of 100 mg/kg/day once a day, that is, the same effect was achieved by 13 times lower daily dose of the drug. This effect was manifested in decrease of mortality and decrease of virus' titer in the lungs. The studies of pharmacokinetics of camphecene have demonstrated that it does not accumulate in blood plasma and that its m ultiple applications with dosage interval of 65 min are safe. In addition, the results of the study demonstrate also that camphecene possesses additive effect with Tamiflu, allowing to decrease the dose of the latter. The results suggest that due to safety and efficacy, camphecene can be further developed as potential anti‐influenza remedy.

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Metabolism of a New Antiaggregant, Indolinone Derivative

Bykov

Leonov²,

Serebrov

et al. 2020

Bull Exp Biol Med

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Klim A. Leonov

Gas Chromatographic Investigation of Oil Biodegradation Degree

Development and validation of HPLC-UV method for quantitation of a new antithrombotic drug in rat plasma and its application to pharmacokinetic studies

Synthesis, Biological Evaluation, and Molecular Modeling of Aza-Crown Ethers

Optimization of application schedule of camphecene, a novel anti‐influenza compound, based on its pharmacokinetic characteristics

Metabolism of a New Antiaggregant, Indolinone Derivative

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