Antje Hamann scite author profile

The inhibition of human glutaminyl cyclase (hQC) has come into focus as a new potential approach for the treatment of Alzheimer's disease. The hallmark of this principle is the prevention of the formation of Abeta(3,11(pE)-40,42), as these Abeta-species were shown to be of elevated neurotoxicity and likely to act as a seeding core leading to an accelerated formation of Abeta-oligomers and fibrils. Starting from 1-(3-(1H-imidazol-1-yl)propyl)-3-(3,4-dimethoxyphenyl)thiourea, bioisosteric replacements led to the development of new classes of inhibitors. The optimization of the metal-binding group was achieved by homology modeling and afforded a first insight into the probable binding mode of the inhibitors in the hQC active site. The efficacy assessment of the hQC inhibitors was performed in cell culture, directly monitoring the inhibition of Abeta(3,11(pE)-40,42) formation.

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Structure-Guided Design, Synthesis, and Characterization of Next-Generation Meprin β Inhibitors

Ramsbeck

Hamann

Richter

et al. 2018

J. Med. Chem.

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The metalloproteinase meprin β emerged as a current drug target for the treatment of a number of disorders, among those fibrosis, inflammatory bowel disease and Morbus Alzheimer. A major obstacle in the development of metalloprotease inhibitors is target selectivity to avoid side effects by blocking related enzymes with physiological functions. Here, we describe the structure-guided design of a novel series of compounds, based on previously reported highly active meprin β inhibitors. The bioisosteric replacement of the sulfonamide scaffold gave rise to a next generation of meprin inhibitors. Selected compounds based on this novel amine scaffold exhibit high activity against meprin β and also remarkable selectivity over related metalloproteases, i.e., matrix metalloproteases and A disintegrin and metalloproteinases.

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First insight into structure-activity relationships of selective meprin β inhibitors

Ramsbeck

Hamann

Schlenzig

et al. 2017

Bioorganic & Medicinal Chemistry Letters

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The prime plasmalemma ATPase of the halophilic alga Dunaliella bioculata: purification and characterization

Smahel

Hamann

Gradmann

1990

Planta

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The prime plasmalemma ATPase of the halophilic green alga Dunaliella bioculata has been solubilized by Triton X-100 from a plasmalemma-rich membrane fraction and purified by anion-exchange chromatography. Vanadate-sensitive ATPase activity was totally enriched about 230-fold to a specific activity of approx. 250 nkat·mg protein(-1). The presence of Mg(2+) or Mn(2+) is essential for ATP hydrolysis by the enzyme. In addition to an equimolar requirement (1∶1 Mg(2+): ATP), there is further stimulation by Mg(2+) (up to 20 mM) and by (100 mM) monovalent cations (K(+) ∼ NH 4 (+) >Rb(+) ∼-Na(+) >Cs(+) >Li(+)∼-choline(+)). Most anions have no or little effect. With a molecular mass of about 105 kDa for the single subunit, sensitivity to vanadate and N,N'-dicyclohexylcarbodiimide (50% inhibition at about 1 μM and 0.3 mM, respectively), strict ATP-specificity, and an acidic pH optimum, this enzyme shows the typical characteristics of the common type of H(+)-ATPase in the plasmalemma of higher plants and fungi. These results undermine the hypothesis of a wider distribution of a special (high salt) type of plasmalemma ATPase as found in the marine alga Acetabularia.

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Antje Hamann

Inhibitors for Human Glutaminyl Cyclase by Structure Based Design and Bioisosteric Replacement

Structure-Guided Design, Synthesis, and Characterization of Next-Generation Meprin β Inhibitors

First insight into structure-activity relationships of selective meprin β inhibitors

The prime plasmalemma ATPase of the halophilic alga Dunaliella bioculata: purification and characterization

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