Patrick Jimonet scite author profile

Two series of analogues of riluzole, a blocker of excitatory amino acid mediated neurotransmission, have been synthesized: monosubstituted 2-benzothiazolamines and 3-substituted derivatives. Of all the compounds prepared in the first series, only 2-benzothiazolamines bearing alkyl, polyfluoroalkyl, or polyfluoroalkoxy substituents in the 6-position showed potent anticonvulsant activity against administration of glutamic acid in rats. The most active compounds displaying in vivo "antiglutamate" activity were the 6-OCF(3) (riluzole), 6-OCF(2)CF(3), 6-CF(3), and 6-CF(2)CF(3) substituted derivatives with ED(50) values between 2.5 and 3.2 mg/kg i.p. Among the second series of variously substituted benzothiazolines, compounds as active as riluzole or up to 3 times more potent were identified in two series: benzothiazolines bearing a beta-dialkylaminoethyl moiety and compounds with an alkylthioalkyl chain and their corresponding sulfoxides and sulfones. The most potent derivatives were 2-imino-3-(2-methylthio)- and 2-imino-3-(2-methylsulfinyl)-ethyl-6-trifluoromethoxybenzothiazolines (61 and 64, ED(50) = 1.0 and 1.1 mg/kg i.p., respectively). In addition, intraperitoneal administration of some of the best benzothiazolines protected mice from mortality produced by hypobaric hypoxia.

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New Modalities, Technologies, and Partnerships in Probe and Lead Generation: Enabling a Mode-of-Action Centric Paradigm

Valeur

Jimonet

2018

J. Med. Chem.

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With the rise of novel biology and high potential target identification technologies originating from advances in genomics, medicinal chemists are progressively facing targets of increasing complexity and often unprecedented. Novel hit finding technologies, combined with a wider choice of drug modalities, has resulted in a unique repertoire of options to address these challenging targets and to identify suitable starting points for optimization. Furthermore, innovative solutions originating from a range of academic groups and biotech companies require new types of collaborative models to leverage and integrate them in the drug discovery process. This perspective provides a guide for medicinal chemists covering contemporary probe and lead generation approaches and discusses the strengths and limitations of each strategy. Moreover, the expansion of strategies to modulate proteins creates the opportunity of a modality-agnostic and mode-of-action centric hit finding paradigm.

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Indeno[1,2-b]pyrazin-2,3-diones: A New Class of Antagonists at the Glycine Site of the NMDA Receptor with Potent in Vivo Activity

Jimonet¹,

Ribeill²,

Böhme³

et al. 2000

J. Med. Chem.

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Indeno¿1,2-bpyrazin-2,3-diones have been identified as a novel series of potent ligands on the glycine site of the NMDA receptor. To improve their in vivo activities, an acetic acid-type side chain was introduced to the 5-position, giving water-soluble compounds when formulated as the sodium salt (>10 mg/mL). Introduction of a chlorine atom in the 8-position led to a dramatic improvement of anticonvulsant activity and this was surprising since this change did not improve binding affinity. A plausible explanation is a reduced recognition by a Na(+),K(+)-ATPase active transport system responsible for the excretion of these compounds from the brain and kidney. This promising new chemical series led to the optically active isomer (-)-10i (RPR 118723), a glycine/NMDA antagonist with nanomolar binding affinity and in vivo activity in animal model of convulsions and electrophysiology at doses in the range of 2-3 mg/kg following iv administration.

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A Rapid Filtration Assay for the Glycine Binding Site on the NMDA Receptor in Rat Cortical Membranes using [3H]Dichlorokynurenic Acid

Canton¹,

Doble²,

Miquet³

et al. 1992

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A filtration binding assay using [3H]dichlorokynurenic acid to label the glycine binding site on the N-methyl-D-aspartic acid receptor has been evaluated on rat cortical membranes. This ligand binds to a single population of binding sites following mass action kinetics with a KD of 29 nM and a capacity of 5.73 pmol (mg protein)-1. The pharmacological specificity of the binding site is identical to that previously reported for this binding site using [3H]glycine as a radioligand. Agonists showed lower affinity and antagonists higher affinity when [3H]dichlorokynurenic acid was used compared with [3H]glycine. The higher affinity of [3H]dichlorokynurenic acid compared with [3H]glycine make it the more suitable compound with which to label the glycine site.

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9-Carboxymethyl-5 H ,10 H -imidazo[1,2- a ]indeno[1,2- e ]pyrazin-4-one-2-carbocylic Acid (RPR117824): Selective Anticonvulsive and Neuroprotective AMPA Antagonist

Mignani

Böhme

Birraux

et al. 2002

Bioorganic & Medicinal Chemistry

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Patrick Jimonet

Riluzole Series. Synthesis and in Vivo “Antiglutamate” Activity of 6-Substituted-2-benzothiazolamines and 3-Substituted-2-imino-benzothiazolines

New Modalities, Technologies, and Partnerships in Probe and Lead Generation: Enabling a Mode-of-Action Centric Paradigm

Indeno[1,2-b]pyrazin-2,3-diones: A New Class of Antagonists at the Glycine Site of the NMDA Receptor with Potent in Vivo Activity

A Rapid Filtration Assay for the Glycine Binding Site on the NMDA Receptor in Rat Cortical Membranes using [3H]Dichlorokynurenic Acid

9-Carboxymethyl-5 H ,10 H -imidazo[1,2- a ]indeno[1,2- e ]pyrazin-4-one-2-carbocylic Acid (RPR117824): Selective Anticonvulsive and Neuroprotective AMPA Antagonist

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