Synese Jolidon

Positive allosteric modulators of metabotropic glutamate 1 receptor: characterization, mechanism of action, and binding site.

We have identified two chemical series of compounds acting as selective positive allosteric modulators (enhancers) of native and recombinant metabotropic glutamate 1 (mGlu1) receptors. These compounds did not directly activate mGlu1 receptors but markedly potentiated agonist-stimulated responses, increasing potency and maximum efficacy. Binding of these compounds increased the affinity of a radiolabeled glutamate-site agonist at its extracellular N-terminal binding site. Chimeric and mutated receptors were used to localize amino acids in the receptor transmembrane region critical for these enhancing properties. Finally, the compounds potentiated synaptically evoked mGlu1 receptor responses in rat brain slices. The discovery of selective positive allosteric modulators of mGlu1 receptors opens up the possibility to develop a similar class of compounds for other family 3 G protein-coupled receptors.

4-aminoquinoline analogs of chloroquine with shortened side chains retain activity against chloroquine-resistant Plasmodium falciparum.

We have synthesized several 4-aminoquinolines with shortened side chains that retain activity against chloroquine-resistant isolates of Plasmodium falciparum malaria (W. Hofheinz, C. Jaquet, and S. Jolidon, European patent 94116281.0, June 1995). We report here an assessment of the activities of four selected compounds containing ethyl, propyl, and isopropyl side chains. Reasonable in vitro activity (50% inhibitory concentration, < 100 nM) against chloroquine-resistant P. falciparum strains was consistently observed, and the compounds performed well in a variety of plasmodium berghei animal models. However, some potential drawbacks of these compounds became evident upon in-depth testing. In vitro analysis of more than 70 isolates of P. falciparum and studies with a mouse in vivo model suggested a degree of cross-resistance with chloroquine. In addition, pharmacokinetic analysis demonstrated the formation of N-dealkylated metabolites of these compounds. These metabolites are similarly active against chloroquine-susceptible strains but are much less active against chloroquine-resistant strains. Thus, the clinical dosing required for these compounds would probably be greater for chloroquine-resistant strains than for chloroquine-susceptible strains. The clinical potential of these compounds is discussed within the context of chloroquines low therapeutic ratio and toxicity.

Selective GlyT1 Inhibitors: Discovery of [4-(3-Fluoro-5-trifluoromethylpyridin-2-yl)piperazin-1-yl]-[5-methanesulfonyl-2-((S)-2,2,2-trifluoro-1-methylethoxy)phenyl]methanone (RG1678), a Promising Novel Medicine To Treat Schizophrenia

The GlyT1 transporter has emerged as a key novel target for the treatment of schizophrenia. Herein, we report on the optimization of the 2-alkoxy-5-methylsulfonebenzoylpiperazine class of GlyT1 inhibitors to improve hERG channel selectivity and brain penetration. This effort culminated in the discovery of compound 10a (RG1678), the first potent and selective GlyT1 inhibitor to have a beneficial effect in schizophrenic patients in a phase II clinical trial.

Fluorinated 9H-xanthene-9-carboxylic acid oxazol-2-yl-amides as potent, orally available mGlu1 receptor enhancers.

Small molecule mGluR1 enhancers, which are 9H-xanthene-9-carboxylic acid [1,2,4]oxadiazol-3-yl- and (2H-tetrazol-5-yl)-amides, have been previously reported. Fluorinated 9H-xanthene-9-carboxylic acid oxazol-2-yl-amides with improved pharmacokinetic properties have been designed and synthesized as useful pharmacological tools for the study of the physiological roles mediated by mGlu1 receptors. The synthesis and the structure-activity relationship of this class of positive allosteric modulators of mGlu1 receptors will be discussed in detail.

Discovery of benzoylpiperazines as a novel class of potent and selective GlyT1 inhibitors

Screening of the Roche compound library led to the identification of the benzoylpiperazine 7 as a structurally novel GlyT1 inhibitor. The SAR which was developed in this series resulted in the discovery of highly potent compounds displaying excellent selectivity against the GlyT2 isoform, drug-like properties, and in vivo efficacy after oral administration.

Aminothiazoles as γ-secretase modulators.

We herein report the discovery of a new γ-secretase modulator class with an aminothiazole core starting from a HTS hit (3). Synthesis and SAR of this series are discussed. These novel compounds demonstrate moderate to good in vitro potency in inhibiting amyloid beta (Aβ) peptide production. Overall γ-secretase is not inhibited but the formation of the aggregating, toxic Aβ42 peptide is shifted to smaller non-aggregating Aβ peptides. Compound 15 reduced brain Aβ42 in vivo in APPSwe transgenic mice at 30mg/kg p.o.

Design, synthesis and structure–activity relationship of simple bis-amides as potent inhibitors of GlyT1

Several novel classes of potent and small amide-type inhibitors of glycine transport (GlyT1) were developed through sequential simplification of a benzodiazepinone-lead structure identified from a high-throughput screening. The most potent compounds of these structurally simple classes show low nanomolar inhibition at the GlyT1 target.

Discovery of benzoylisoindolines as a novel class of potent, selective and orally active GlyT1 inhibitors

Benzoylisoindolines were discovered as a novel structural class of GlyT1 inhibitors. SAR studies and subsequent lead optimization efforts focused primarily on addressing hERG liability and on improving in vivo efficacy resulted in the identification of potent GlyT1 inhibitors displaying excellent selectivity and in vivo PD and PK profiles.

Inhibitors of 2,3-Oxidosqualene-Lanosterol Cyclase as Antifungal Agents

Most known antifungals act on enzymes involved in the biosynthesis of ergosterol, the main sterol in fungi. 2,3-Oxidosqualene-lanosterol cyclase is one of these enzymes; several inhibitors of the enzyme are known, which however have poor antifungal activity. A simple approach based on mechanistic considerations led to the synthesis of potent bifunctional inhibitors of 2,3-oxidosqualene-lanosterol cyclase. These amino-ketones represent the first cyclase inhibitors which also show an effective in vitro activity against a wide range of medically important fungi. A cell-free assay is presented, which allows accurate determination of IC50-values.