Г. М. Бутов scite author profile

Adamantyl groups are widely used in medicinal chemistry. However, metabolism limits their usage. Herein, we report the first systematic study of adamantyl ureas and diureas bearing substituents in bridgehead positions of adamantane and/or spacers between urea groups and adamantane group, and tested their effects on soluble epoxide hydrolase inhibitor potency and metabolic stability. Interestingly, the effect on activity against human and murine sEH varied in opposite ways with each new methyl group introduced into the molecule. Compounds with three methyl substituents in adamantane were very poor inhibitors of murine sEH while still very potent against human sEH. In addition, diureas with terminal groups bigger than sEH catalytic tunnel diameter were still good inhibitors suggesting that the active site of sEH opens to capture the substrate or inhibitor molecule. The introduction of one methyl group leads to 4-fold increase in potency without noticeable loss of metabolic stability compared to the unsubstituted adamantane. However, introduction of two or three methyl groups leads to 8-fold and 98-fold decrease in stability in human liver microsomes for the corresponding compounds.

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Tick-borne flavivirus reproduction inhibitors based on isoxazole core linked with adamantane

Vasilenko

Dueva

Kozlovskaya

et al. 2019

Bioorganic Chemistry

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Symmetric adamantyl-diureas as soluble epoxide hydrolase inhibitors

Burmistrov¹,

Morisseau²,

Lee³

et al. 2014

Bioorganic & Medicinal Chemistry Letters

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A series of inhibitors of the soluble epoxide hydrolase (sEH) containing two urea groups has been developed. Inhibition potency of the described compounds ranges from 2.0 μM to 0.4 nM. 1,6-(hexamethylene)bis[(adamant-1-yl)urea] (3b) was found to be a potent slow tight binding inhibitor (IC50 = 0.5 nM) with a strong binding to sEH (Ki = 3.1 nM) and a moderately long residence time on the enzyme (koff = 1.05×10−3 s−1; t1/2 = 11 min).

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Synthesis and assessment of 4-aminotetrahydroquinazoline derivatives as tick-borne encephalitis virus reproduction inhibitors

et al. 2015

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Tick-borne encephalitis virus (TBEV) belonging to Flavivirus genus causes severe infection in humans. The search for therapeutically relevant compounds targeting TBEV requires the exploration of novel chemotypes. A versatile synthesis of previously unknown 4-aminopyrimidines and 4-aminopyrimidine N-oxides based on a fluorosubstituted heterocyclic core is described. A representative series of 4-aminotetrahydroquinazoline derivatives, containing aliphatic and aromatic substituents as well as the adamantane framework, was obtained and their activity against tick-borne encephalitis virus reproduction was studied. Nine compounds were found to inhibit TBEV entry into the host cells. A bulky hydrophobic adamantyl group was identified to be important for the antiviral activity. The developed synthetic route allowed an easy access to a consistent compound library for further structure-activity relationship studies.

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Г. М. Бутов

Effects of adamantane alterations on soluble epoxide hydrolase inhibition potency, physical properties and metabolic stability

Tick-borne flavivirus reproduction inhibitors based on isoxazole core linked with adamantane

Symmetric adamantyl-diureas as soluble epoxide hydrolase inhibitors

Synthesis and assessment of 4-aminotetrahydroquinazoline derivatives as tick-borne encephalitis virus reproduction inhibitors

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