Christina Ries scite author profile

Pharmacophore modeling of a series of aldosterone synthase (CYP11B2) inhibitors triggered the design of compounds 11 and 12 by extending a previously established naphthalene molecular scaffold (e.g., present in molecules 1 and 2) via introduction of a phenyl or benzyl residue in 3-position. These additional aromatic moieties have been hypothesized to fit into the newly identified hydrophobic pharmacophore feature HY3. Subsequent docking studies in our refined CYP11B2 protein model have been performed prior to synthesis to estimate the inhibitory properties of the proposed molecules. While phenyl-substituted compound 11 (IC50 > 500 nM) did not dock under the given pharmacophore constraint (i.e., the Fe(heme)-N(ligand) interaction), benzyl-substituted compound 12 (IC50 = 154 nM) was found to exploit a previously unexplored subpocket of the inhibitor binding site. By structural optimization based on the pharmacophore hypothesis, 25 novel compounds were synthesized, among them highly potent CYP11B2 inhibitors (e.g., 17, IC50 = 2.7 nM) with pronounced selectivity toward the most important steroidogenic and hepatic CYP enzymes.

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In Vivo Active Aldosterone Synthase Inhibitors with Improved Selectivity: Lead Optimization Providing a Series of Pyridine Substituted 3,4-Dihydro-1H-quinolin-2-one Derivatives

Lucas

Heim

Ries

et al. 2008

J. Med. Chem.

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Pyridine substituted naphthalenes (e.g., I-III) constitute a class of potent inhibitors of aldosterone synthase (CYP11B2). To overcome the unwanted inhibition of the hepatic enzyme CYP1A2, we aimed at reducing the number of aromatic carbons of these molecules because aromaticity has previously been identified to correlate positively with CYP1A2 inhibition. As hypothesized, inhibitors with a tetrahydronaphthalene type molecular scaffold (1-11) exhibit a decreased CYP1A2 inhibition. However, tetralone 9 turned out to be cytotoxic to the human cell line U-937 at higher concentrations. Consequent structural optimization culminated in the discovery of heteroaryl substituted 3,4-dihydro-1H-quinolin-2-ones (12-26), with 12, a bioisostere of 9, being nontoxic up to 200 microM. The investigated molecules are highly selective toward both CYP1A2 and a wide range of other cytochrome P450 enzymes and show a good pharmacokinetic profile in vivo (e.g., 12 with a peroral bioavailability of 71%). Furthermore, isoquinoline derivative 21 proved to significantly reduce plasma aldosterone levels of ACTH stimulated rats.

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Overcoming Undesirable CYP1A2 Inhibition of Pyridylnaphthalene-Type Aldosterone Synthase Inhibitors: Influence of Heteroaryl Derivatization on Potency and Selectivity

et al. 2008

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Recently, we reported on the development of potent and selective inhibitors of aldosterone synthase (CYP11B2) for the treatment of congestive heart failure and myocardial fibrosis. A major drawback of these nonsteroidal compounds was a strong inhibition of the hepatic drug-metabolizing enzyme CYP1A2. In the present study, we examined the influence of substituents in the heterocycle of lead structures with a naphthalene molecular scaffold to overcome this unwanted side effect. With respect to CYP11B2 inhibition, some substituents induced a dramatic increase in inhibitory potency. The methoxyalkyl derivatives 22 and 26 are the most potent CYP11B2 inhibitors up to now (IC50 = 0.2 nM). Most compounds also clearly discriminated between CYP11B2 and CYP11B1, and the CYP1A2 potency significantly decreased in some cases (e.g., isoquinoline derivative 30 displayed only 6% CYP1A2 inhibition at 2 microM concentration). Furthermore, isoquinoline derivative 28 proved to be capable of passing the gastrointestinal tract and reached the general circulation after peroral administration to male Wistar rats.

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Selective aldosterone synthase inhibitors reduce aldosterone formation in vitro and in vivo

Ries

Lucas

Heim

et al. 2009

The Journal of Steroid Biochemistry and Molecular Biology

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Facile Synthesis of Chrysin-derivatives with Promising Activities as Aromatase Inhibitors^†

Mohammed

Burkholz

et al. 2011

Natural Product Communications

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Flavones such as chrysin show structural similarities to androgens, the substrates of human aromatase, which converts androgens to estrogens. Aromatase is a key target in the treatment of hormone-dependent tumors, including breast cancer. Flavone-based aromatase inhibitors are of growing interest, and chrysin in particular provides a (natural) lead structure. This paper reports multicomponent synthesis as a means for facile modification of the chrysin core structure in order to add functional elements. A Mannich-type reaction was used to synthesize a range of mono-and disubstituted chrysin derivatives, some of which are more effective aromatase inhibitors than the benchmark compound, aminoglutethimide. Similarly, the reaction of chrysin with various isonitriles and acetylene dicarboxylates results in a new class of flavone derivatives, tricyclic pyrano-flavones which also inhibit human aromatase. Multicomponent reactions involving flavones therefore enable the synthesis of a variety of derivatives, some of which may be useful as anticancer agents.

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Synthesis and Antineoplastic Activity of O‐Alkylated Derivatives of 7‐Hydroximinoandrost‐5‐ene Steroids

Bansal

Guleria

Ries

et al. 2010

Archiv der Pharmazie

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Varied positioning of the hydroximino group on the parental steroid skeleton results in remarkable changes in the antineoplastic activity profile of the compounds. Here, the compound 7-oximino-5-androstene and its O-alkylated derivatives have been prepared and screened for cytotoxic and aromatase inhibitory activity. The steroidal 7-oximino ether derivatives exhibited insignificant cytotoxic effects when screened against three cancer cell lines, MCF-7 (breast), NCl-H460 (lung), and SF-268 (CNS) at 100 microM. However, the imidazolyl-substituted steroidal oxime ethers displayed moderate inhibition of cytochrome P450 aromatase.

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Christina Ries

Novel Aldosterone Synthase Inhibitors with Extended Carbocyclic Skeleton by a Combined Ligand-Based and Structure-Based Drug Design Approach

In Vivo Active Aldosterone Synthase Inhibitors with Improved Selectivity: Lead Optimization Providing a Series of Pyridine Substituted 3,4-Dihydro-1H-quinolin-2-one Derivatives

Overcoming Undesirable CYP1A2 Inhibition of Pyridylnaphthalene-Type Aldosterone Synthase Inhibitors: Influence of Heteroaryl Derivatization on Potency and Selectivity

Selective aldosterone synthase inhibitors reduce aldosterone formation in vitro and in vivo

Facile Synthesis of Chrysin-derivatives with Promising Activities as Aromatase Inhibitors^†

Synthesis and Antineoplastic Activity of O‐Alkylated Derivatives of 7‐Hydroximinoandrost‐5‐ene Steroids

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Christina Ries

Novel Aldosterone Synthase Inhibitors with Extended Carbocyclic Skeleton by a Combined Ligand-Based and Structure-Based Drug Design Approach

In Vivo Active Aldosterone Synthase Inhibitors with Improved Selectivity: Lead Optimization Providing a Series of Pyridine Substituted 3,4-Dihydro-1H-quinolin-2-one Derivatives

Overcoming Undesirable CYP1A2 Inhibition of Pyridylnaphthalene-Type Aldosterone Synthase Inhibitors: Influence of Heteroaryl Derivatization on Potency and Selectivity

Selective aldosterone synthase inhibitors reduce aldosterone formation in vitro and in vivo

Facile Synthesis of Chrysin-derivatives with Promising Activities as Aromatase Inhibitors†

Synthesis and Antineoplastic Activity of O‐Alkylated Derivatives of 7‐Hydroximinoandrost‐5‐ene Steroids

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Product

Resources

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Facile Synthesis of Chrysin-derivatives with Promising Activities as Aromatase Inhibitors^†