Catherine Jorand-Lebrun

Regulation of the severity of neuroinflammation and demyelination by TLR-ASK1-p38 pathway

Apoptosis signal‐regulating kinase 1 (ASK1) is an evolutionarily conserved mitogen‐activated protein kinase (MAPK) kinase kinase which plays important roles in stress and immune responses. Here, we show that ASK1 deficiency attenuates neuroinflammation in experimental autoimmune encephalomyelitis (EAE), without affecting the proliferation capability of T cells. Moreover, we found that EAE upregulates expression of Toll‐like receptors (TLRs) in activated astrocytes and microglia, and that TLRs can synergize with ASK1‐p38 MAPK signalling in the release of key chemokines from astrocytes. Consequently, oral treatment with a specific small molecular weight inhibitor of ASK1 suppressed EAE‐induced autoimmune inflammation in both spinal cords and optic nerves. These results suggest that the TLR‐ASK1‐p38 pathway in glial cells may serve as a valid therapeutic target for autoimmune demyelinating disorders including multiple sclerosis.

Optimization of the Central Core of Indolinone–Acetic Acid-Based CRTH2 (DP2) Receptor Antagonists

New spiroindolinone antagonists of CRTH2 are described. Following identification of insufficient stability in human plasma as an important liability of the lead compounds, replacement of the spirosuccinimide core with a spirohydantoin or spiropyrrolidinone structure has yielded a compound that is fully stable in human plasma and with good potency in a human whole blood assay (IC50 = 69 nM) but shows a much lower oral bioavailability (6-9% in rodents) than the earlier compounds. Successive optimization aimed at restoring an acceptable oral bioavailability has yielded compound (S)-17a, which exhibits both stability in human plasma and a good oral bioavailability in rat (37%) and mouse (39%). This compound is also active in a mouse model of ovalbumin-induced lung inflammation following oral dosing at 30 mg/kg.

Discovery of Potent, Selective, and Orally Bioavailable Alkynylphenoxyacetic Acid CRTH2 (DP2) Receptor Antagonists for the Treatment of Allergic Inflammatory Diseases

New phenoxyacetic acid antagonists of CRTH2 are described. Following the discovery of a hit compound by a focused screening, high protein binding was identified as its main weakness. Optimization aimed at reducing serum protein binding led to the identification of several compounds that showed not only excellent affinities for the receptor (41 compounds with K(i) < 10 nM) but also excellent potencies in a human whole blood assay (IC(50) < 100 nM; PGD2-induced eosinophil shape change). Additional optimization of the PK characteristics led to the identification of several compounds suitable for in vivo testing. Of these, 19k and 19s were tested in two different pharmacological models (acute FITC-mediated contact hypersensitivity and ovalbumin-induced eosinophilia models) and found to be active after oral dosing (10 and 30 mg/kg).

5-HT1B/1D antagonists and depression

The molecular pharmacology, functional role and behavioural implications of central 5-HT1B/1D receptors suggest that these particular receptor subtypes probably play an important role in brain serotonin neurotransmission. This article summarises the rationale for considering 5-HT1B/1D antagonists as potential new, fast-acting antidepressants and describes the development of recent selective potent 5-HT1B/1D antagonists, reviewing both the primary and patent literature.

Dimers of 5HT1 ligands preferentially bind to 5HT1B/1D receptor subtypes

New dimers of known 5HT1 ligands (5HT, 1-NP or 8-OH-DPAT) have been prepared and evaluated at human cloned 5HT1B, 5HT1D and 5HT1A receptors. Binding experiments show that all these dimers have better affinities at 5HT1B/1D receptors than their corresponding monomeric ligands. Studies of inhibition of the forskolin-stimulated c-AMP formation mediated by the human 5HT1B receptor show that hetero-bivalent ligands [combining an agonist (5HT) with an antagonist (1-NP)] behave as partial agonists while the intrinsic activity of bivalent antagonists (combining two 1-NP residues) was found to be spacer dependent. Surprisingly enough, the dimer of 8-OH-DPAT 6 binds to 5HT1A, 5HT1B and 5HT1D receptors with similar high affinity.

Use of Triphosgene for Direct Preparation of Carbamoyl Chlorides from Tertiary Benzylamines

Abstract A general method for direct preparation of carbamoyl chlorides from corresponding benzylamines using triphosgene is described.

Arylpiperazide derivatives of phenylpiperazines as a new class of potent and selective 5-HT1B receptor antagonists

Abstract A new series of arylpiperazide derivatives of phenylpiperazines of general formula 4 has been prepared and evaluated as 5-HT1B receptor antagonists. In vitro experiments at human cloned 5-HT1B receptors show that these derivatives are potent and selective 5-HT1B receptor antagonists. Among them, compound 4f was found to be orally active, to gain access to the CNS and more importantly to induce an increase in extracellular brain 5-HT upon systemic administration.

GLEPP1/Protein-tyrosine Phosphatase ϕ Inhibitors Block Chemotaxis in Vitro and in Vivo and Improve Murine Ulcerative Colitis

We describe novel, cell-permeable, and bioavailable salicylic acid derivatives that are potent and selective inhibitors of GLEPP1/protein-tyrosine phosphatase ϕ. Two previously described GLEPP1 substrates, paxillin and Syk, are both required for cytoskeletal rearrangement and cellular motility of leukocytes in chemotaxis. We show here that GLEPP1 inhibitors prevent dephosphorylation of Syk1 and paxillin in resting cells and block primary human monocyte and mouse bone marrow-derived macrophage chemotaxis in a gradient of monocyte chemotactic protein-1. In mice, the GLEPP1 inhibitors also reduce thioglycolate-induced peritoneal chemotaxis of neutrophils, lymphocytes, and macrophages. In murine disease models, the GLEPP1 inhibitors significantly reduce severity of contact hypersensitivity, a model for allergic dermatitis, and dextran sulfate sodium-induced ulcerative colitis, a model for inflammatory bowel disease. Taken together, our data provide confirmation that GLEPP1 plays an important role in controlling chemotaxis of multiple types of leukocytes and that pharmacological inhibition of this phosphatase may have therapeutic use.

Discovery of a Novel Series of CRTH2 (DP2) Receptor Antagonists Devoid of Carboxylic Acids

Antagonism of the CRTH2 receptor represents a very attractive target for a variety of allergic diseases. Most CRTH2 antagonists known to date possess a carboxylic acid moiety, which is essential for binding. However, potential acid metabolites O-acyl glucuronides might be linked to idiosynchratic toxicity in humans. In this communication, we describe a new series of compounds that lack the carboxylic acid moiety. Compounds with high affinity (K i < 10 nM) for the receptor have been identified. Subsequent optimization succeeded in reducing the high metabolic clearance of the first compounds in human and rat liver microsomes. At the same time, inhibition of the CYP isoforms was optimized, giving rise to stable compounds with an acceptable CYP inhibition profile (IC50 CYP2C9 and 2C19 > 1 μM). Taken together, these data show that compounds devoid of carboxylic acid groups could represent an interesting alternative to current CRTH2 antagonists in development.