Georg Schlechtingen scite author profile

beta-Secretase plays a critical role in beta-amyloid formation and thus provides a therapeutic target for Alzheimer's disease. Inhibitor design has usually focused on active-site binding, neglecting the subcellular localization of active enzyme. We have addressed this issue by synthesizing a membrane-anchored version of a beta-secretase transition-state inhibitor by linking it to a sterol moiety. Thus, we targeted the inhibitor to active beta-secretase found in endosomes and also reduced the dimensionality of the inhibitor, increasing its local membrane concentration. This inhibitor reduced enzyme activity much more efficiently than did the free inhibitor in cultured cells and in vivo. In addition to effectively targeting beta-secretase, this strategy could also be used in designing potent drugs against other membrane protein targets.

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A Novel Method for the Synthesis of Isocyanates Under Mild Conditions

Knölker

Braxmeier

Schlechtingen

1995

Angew. Chem. Int. Ed. Engl.

148

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[Pro³]Dyn A(1−11)-NH₂: A Dynorphin Analogue with High Selectivity for the κ Opioid Receptor

et al. 2000

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A proline scan at positions 2 and 3 of the opioid peptide dynorphin A(1-11)-NH(2) led to the discovery of the analogue [Pro(3)]Dyn A(1-11)-NH(2). This analogue possesses high affinity and selectivity for the kappa opioid receptor (K(i)(kappa) = 2.7 nM, K(i) ratio kappa/micro/delta = 1/2110/3260). The gain in selectivity is achieved through an overall reduction of opioid receptor affinity which is most pronounced at micro and delta receptors. The Pro(3) analogue exhibits antagonist properties. Despite its high kappa affinity, [Pro(3)]Dyn A(1-11)-NH(2) is a relatively weak antagonist in both the [(35)S]GTPgammaS assay (IC(50) = 380 nM) and the guinea pig ileum assay (K(e) = 244 nM). Discrepancies between GPI and binding assay have often been ascribed to differential kappa receptor subtypes prevailing in central vs peripheral neurons. Since the [(35)S]GTPgammaS assay uses the same membrane preparations as the binding assay, differential kappa subtypes can be ruled out as an explanation in this case, and the observed behavior rather seems to reflect an intrinsic property of the ligand.

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