Jens Hagenow scite author profile

Jens Hagenow

3Publications

22Citation Statements Received

88Citation Statements Given

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Heinrich Heine University Düsseldorf

Publications

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SAR of Sponge-Inspired Hemibastadin Congeners Inhibiting Blue Mussel PhenolOxidase

et al. 2015

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Hemibastadin derivatives, including the synthetically-derived 5,5′-dibromohemibastadin-1 (DBHB), are potent inhibitors of blue mussel phenoloxidase (PO), which is a key enzyme involved in the firm attachment of this invertebrate to substrates and, thus, a promising molecular target for anti-fouling research. For a systematic investigation of the enzyme inhibitory activity of hemibastadin derivatives, we have synthesized nine new congeners, which feature structural variations of the DBHB core structure. These structural modifications include, e.g., different halogen substituents present at the aromatic rings, different amine moieties linked to the (E)-2-(hydroxyimino)-3-(4-hydroxyphenyl)propionic acid, the presence of free vs. substituted aromatic hydroxyl groups and a free vs. methylated oxime group. All compounds were tested for their inhibitory activity towards the target enzyme in vitro, and IC50 values were calculated. Derivatives, which structurally closely resemble sponge-derived hemibastadins, revealed superior enzyme inhibitory properties vs. congeners featuring structural moieties that are absent in the respective natural products. This study suggests that natural selection has yielded structurally-optimized antifouling compounds.

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<p>Reversible Small Molecule Inhibitors of MAO A and MAO B with Anilide Motifs</p>

Hagenow¹,

Hagenow²,

Grau³

et al. 2020

DDDT

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Background: Ligands consisting of two aryl moieties connected via a short spacer were shown to be potent inhibitors of monoamine oxidases (MAO) A and B, which are known as suitable targets in treatment of neurological diseases. Based on this general blueprint, we synthesized a series of 66 small aromatic amide derivatives as novel MAO A/B inhibitors. Methods: The compounds were synthesized, purified and structurally confirmed by spectroscopic methods. Fluorimetric enzymological assays were performed to determine MAO A/B inhibition properties. Mode and reversibility of inhibition was determined for the most potent MAO B inhibitor. Docking poses and pharmacophore models were generated to confirm the in vitro results. Results: N-(2,4-Dinitrophenyl)benzo[d][1,3]dioxole-5-carboxamide (55, ST-2043) was found to be a reversible competitive moderately selective MAO B inhibitor (IC 50 = 56 nM, K i = 6.3 nM), while N-(2,4-dinitrophenyl)benzamide (7, ST-2023) showed higher preference for MAO A (IC 50 = 126 nM). Computational analysis confirmed in vitro binding properties, where the anilides examined possessed high surface complementarity to MAO A/B active sites. Conclusion: The small molecule anilides with different substitution patterns were identified as potent MAO A/B inhibitors, which were active in nanomolar concentrations ranges. These small and easily accessible molecules are promising motifs, especially for newly designed multitargeted ligands taking advantage of these fragments.

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Histamine H<sub>4</sub> Receptor Antagonists: A New Approach for Tinnitus Treatment?

Hagenow¹,

Stark

2015

RPCN

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Tinnitus, a disorder with disruptive sound perception in the head without an external source, affects around 15 % of the worldwide adult population. Since there is no approved drug for the treatment for this symptom, novel strategies need to be developed to provide relief for the patient. A patent from the small French start-up company Sensorion suggests the use of histamine H4 receptor (H4R) inhibitors as potential treatment. Since histamine and its receptor subtypes are strongly involved in neuronal and inflammatory processes in vestibular areas, targeting the H4R could be a novel way to gain a treatment for tinnitus. Although mRNA and protein levels of H4R have been demonstrated on isolated spiral ganglion neurons from mice, the methods of receptor detection as well as the species relevance of the data are under discussion and require considerable further verification, especially on a disease with a high medical need like tinnitus.

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Jens Hagenow

SAR of Sponge-Inspired Hemibastadin Congeners Inhibiting Blue Mussel PhenolOxidase

<p>Reversible Small Molecule Inhibitors of MAO A and MAO B with Anilide Motifs</p>

Histamine H<sub>4</sub> Receptor Antagonists: A New Approach for Tinnitus Treatment?

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