Gregor Larbig scite author profile

Synthesis of this compound showed that it was indeed active in terms of inhibiting de novo tau aggregation and disassembling preformed aggregates (IC 50 ) 7.7 µM and DC 50 ) 10.8 µM). We have now synthesized 49 similar structures and identified the core of the PTHs to be crucial for activity, thus representing a lead structure. Analysis of the binding epitope by saturation transfer difference NMR shows strong interactions between the tau protein and the ligand in the aromatic regions of the inhibitor. By chemical variation of the core, we improved the inhibitory potency five-fold. The compounds showed a low toxicity as judged by an N2A cell model of tau aggregation and lend themselves for further development.

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Short and Diverse Route Toward Complex Natural Product-Like Macrocycles

Beck

et al. 2003

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[reaction: see text] A general strategy toward macrocyclic compounds using multicomponent reaction (MCR) chemistry, e.g., Passerini and Ugi variants, and ring-closing metathesis (RCM) is introduced. The corresponding bifunctional isocyanides carboxylic acids bearing a terminal olefin are easy to prepare from the corresponding commercially available starting materials. Advantageously, this strategy allows fast access to a diverse conformational space of natural product-like macrocycles and could thus be of interest in the discovery of novel bioactive agents.

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Renal Targeting: Peptide-Based Drug Delivery to Proximal Tubule Cells

et al. 2016

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Kidney-specific drug targeting is an attractive strategy to reduce unwanted side effects and to enhance drug efficacy within the renal tissue. For this purpose a novel kidney-specific drug carrier was developed. The peptide sequence (KKEEE)3K triggers exceptional renal specificity at high accumulation rates. Micro-PET imaging studies of megalin-deficient mice indicate that the cellular endocytosis of this carrier is mediated by megalin. This assumption is supported by immunohistochemical analysis of FITC-labeled carrier peptide, which exclusively accumulated at the apical side of proximal tubule cells within the renal cortex. Scintigraphic studies of modified ciprofloxacin conjugated to (KKEEE)3K confirmed the excellent drug targeting potential of the peptide carrier. The conjugate accumulated entirely in the kidneys, revealing flawless redirection of ciprofloxacin, a compound that is mainly excreted by the liver. In conclusion, these results suggest the potential of (KKEEE)3K as a promising candidate for kidney-targeted drug delivery to proximal tubule cells.

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Inhibitors and Modulators of β- and γ-Secretase

Schmidt

Baumann²,

Braun³

et al. 2006

CTMC

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Most gene mutations associated with Alzheimer's disease point to the metabolism of amyloid precursor protein as potential cause. The beta- and gamma-secretases are two executioners of amyloid precursor protein processing resulting in amyloid beta. Significant progress has been made in the selective inhibition of both proteases, regardless of structural information for gamma-secretase. Several peptidic and non-peptidic leads were identified and first drug candidates are in clinical trials. This review focuses on the developments since 2003.

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Gregor Larbig

Phenylthiazolyl-Hydrazide and Its Derivatives Are Potent Inhibitors of τ Aggregation and Toxicity in Vitro and in Cells

Short and Diverse Route Toward Complex Natural Product-Like Macrocycles

Renal Targeting: Peptide-Based Drug Delivery to Proximal Tubule Cells

Inhibitors and Modulators of β- and γ-Secretase

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Gregor Larbig

Phenylthiazolyl-Hydrazide and Its Derivatives Are Potent Inhibitors of τ Aggregation and Toxicity in Vitro and in Cells

Short and Diverse Route Toward Complex Natural Product-Like Macrocycles

Renal Targeting: Peptide-Based Drug Delivery to Proximal Tubule Cells

Inhibitors and Modulators of &#946;- and &#947;-Secretase

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Inhibitors and Modulators of β- and γ-Secretase