Benjamin Boucherle scite author profile

The natural β-carboline alkaloids display similarities with neurotransmitters that can be favorably exploited to design bioactive and bioavailable drugs for Alzheimer's disease (AD) therapy. Several AD targets are currently and intensively being investigated, divided in different hypotheses: mainly the cholinergic, the amyloid β (Aβ), and the Tau hypotheses. To date, only symptomatic treatments are available involving acetylcholinesterase and NMDA inhibitors. On the basis of plethoric single-target structure−activity relationship studies, the β-carboline scaffold was identified as a powerful tool for fostering activity and molecular interactions with a wide range of AD-related targets. This knowledge can undoubtedly be used to design multitarget-directed ligands, a highly relevant strategy preferred in the context of multifactorial pathology with intricate etiology such as AD. In this review, we first individually discuss the AD targets of the β-carbolines, and then we focus on the multitarget strategies dedicated to the deliberate design of new efficient scaffolds.

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Discovery of α-Aminoazaheterocycle-Methylglyoxal Adducts as a New Class of High-Affinity Inhibitors of Cystic Fibrosis Transmembrane Conductance Regulator Chloride Channels

Routaboul

Norez²,

Melin³

et al. 2007

J Pharmacol Exp Ther

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The cystic fibrosis transmembrane conductance regulator (CFTR) represents the main Cl Ϫ channel in the apical membrane of epithelial cells for cAMP-dependent Cl Ϫ secretion. Here we report on the synthesis and screening of a small library of nontoxic ␣-aminoazaheterocycle-methylglyoxal adducts, inhibitors of wild-type (WT) CFTR and G551D-, G1349D-, and F508del-CFTR Cl Ϫ channels. In whole-cell patch-clamp experiments of Chinese hamster ovary (CHO) cells expressing WT-CFTR, we recorded rapid and reversible inhibition of forskolin-activated CFTR currents in the presence of the adducts 5a and 8a,b at 10 pM concentrations. Using iodide efflux experiments, we compared concentration-dependent inhibition of CFTR with glibenclamide (IC 50 ϭ 14.7 M), 3-[(3-trifluoromethyl)phenyl]-5-[(4-carboxyphenyl-)methylene]-2-thioxo-4-thiazolidinone (CFTR inh -172) (IC 50 ϭ 1.2 M), and ␣-aminoazaheterocycle-methylglyoxal adducts and identified compounds 5a (IC 50 ϭ 71 pM), 8a,b (IC 50 ϭ

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Traditional uses, phytochemistry and pharmacological properties of African Nauclea species: A review

Haudecoeur

Peuchmaur

Pérès

et al. 2018

Journal of Ethnopharmacology

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Nauclea latifolia: biological activity and alkaloid phytochemistry of a West African tree

et al. 2016

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Covering up to 2016Nauclea latifolia (syn. Sarcocephalus latifolius, Rubiaceae), commonly called the African pincushion tree, is a plant widely used in folk medicine in different regions of Africa for treating a variety of illnesses, including malaria, epilepsy and pain. N. latifolia has not only drawn the interest of traditional healers but also of phytochemists, who have identified a range of bioactive indole alkaloids in its tissue. More recently, following up on the traditional use of extracts in pain management, a bio-guided purification from the roots of the tree led to the identification of the active ingredient as tramadol, available as a synthetic analgesic since the 1970s. The discovery of this compound as a natural phytochemical was highlighted worldwide. This review focuses on the correlation between extracted compounds and pharmacological activities, paying special attention to infectious diseases and neurologically-related disorders. A critical analysis of the data reported so far on the natural origin of tramadol and its proposed biosynthesis is also presented.

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A One-Pot Synthesis of Highly Functionalized Purines

et al. 2017

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Highly substituted purines were synthesized in good to high yields through a one-pot straightforward metal-free scalable method, using the Traube synthesis adapted to Vilsmeier-type reagents. From 5-amino-4-chloropyrimidines, new 9-aryl-substituted chloropurines and intermediates for peptide nucleic acid synthesis were prepared. Variant procedures allowing a rapid synthesis of ribonucleosides and 7-benzylpurine from 5-amidino-6-aminopyrimidines are also reported to illustrate the high potential of this versatile toolbox. This route appears to be particularly interesting in the field of nucleic acids for a direct and rapid access to various new 8-alkylpurine nucleosides.

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Structure-Based Design of PDZ Ligands as Inhibitors of 5-HT_2AReceptor/PSD-95 PDZ1 Domain Interaction Possessing Anti-hyperalgesic Activity

et al. 2013

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Disrupting the interaction between the PDZ protein PSD-95 and the C-terminal domain of the 5-HT2A serotonin receptor has been shown to reduce hyperalgesia in a rodent model of neuropathic pain. Here, we designed and synthesized PDZ ligands capable of binding to the first PDZ domain (PDZ1) of the PSD-95 protein and evaluated their biological activity in vitro and in vivo. A series of substituted indoles was identified by docking simulations, and six novel analogues were synthesized. Three analogues displayed strong interactions with the first PDZ domain (PDZ1) of PDZ-95 in (1)H-(15)N heteronuclear single-quantum coherence (HSQC) experiments and two of them were able to inhibit the interaction between PSD-95 and the 5-HT2A receptor in vitro. We identified compound 8b as the analogue able to significantly suppress mechanical hyperalgesia in an experimental model of traumatic neuropathic pain in the rat. This effect was suppressed by the coadministration of the 5-HT2A receptor antagonist M100907, consistent with an inhibitory effect upon 5-HT2A receptor/PSD-95 interaction. Finally, we determined an NMR-restraint driven model structure for the PSD95 PDZ1/8b complex, which confirms that indole 8b binds to the putative PDZ-ligand binding site.

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Targeting different binding sites in the CFTR structures allows to synergistically potentiate channel activity

Froux

Elbahnsi

Boucherle

et al. 2020

European Journal of Medicinal Chemistry

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Recent evidence shows that combination of correctors and potentiators, such as the drug ivacaftor (VX-770), can significantly restore the functional expression of mutated Cystic Fibrosis Transmembrane conductance Regulator (CFTR), an anion channel which is mutated in cystic fibrosis (CF). The success of these combinatorial therapies highlights the necessity of identifying a broad panel of specific binding mode modulators, occupying several distinct binding sites at structural level. Here, we identified two small molecules, SBC040 and SBC219, which are two efficient cAMP-independent potentiators, acting at low concentration of forskolin with EC50 close to 1 µM and in a synergic way with the drug VX-770 on several CFTR mutants of classes II and III. Molecular dynamics simulations suggested potential SBC binding sites at the vicinity of ATP-binding sites, distinct from those currently proposed for VX-770, outlining SBC molecules as members of a new family of potentiators.

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