Guillaume de Nanteuil

Synthesis and CHK1 inhibitory potency of Hymenialdisine analogues.

A series of thieno[3,2-b]pyrroloazepinones derivatives related to Hymenialdisine were prepared and tested for CHK1 inhibitory activity. Nanomolar inhibitions were achieved when electron-withdrawing substituents were introduced at position 3 of the thiophene ring.

New fibrinolytic agents: benzothiophene derivatives as inhibitors of the t-PA–PAI-1 complex formation

The synthesis and activity of novel benzothiophene derivatives are described. In the t-Pa-induced fibrin clot lysis assay, several compounds inhibit the formation of the tPa-PAI-1 complex with submicromolar IC(50). This class of compounds potentially represents a new generation of antithrombotic-fibrinolytic agents.

S35225 is a direct inhibitor of Plasminogen Activator Inhibitor type-1 activity in the blood.

The increased risk of thrombotic events associated with disease states such as diabetes and hypertension has been correlated with elevated circulating levels of Plasminogen Activator Inhibitor type-1 (PAI-1). In the present study we evaluate the benzothiophene derivative S35225 in comparison with two recently described inhibitors of PAI-1 activity Tiplaxtinin and WAY140312 on a panel of PAI-1 activity assays in vitro and in vivo. In a direct chromogenic assay, S35225 has an IC50 value of 44+/-0.9 microM similar to that of Tiplaxtinin (34+/-7 microM) and of WAY140312 (39+/-1 microM). In a clot lysis assay however, S35225 has a significantly lower IC50 value than Tiplaxtinin and WAY140312 (0.6+/-0.3 versus 22+/-5 and 16+/-2 microM respectively). Using a tPA capture assay to quantify active PAI-1 in rat or human plasma, neither WAY140312, nor Tiplaxtinin attained 50% inhibition of PAI-1 activity at the highest concentration tested (1 mM); S35225 has an IC50 value of 194+/-30 microM against active rat PAI-1 and 260+/-41 microM against active human PAI-1. The ability of the compounds to inhibit endogenous active PAI-1 in the rat following intravenous administration was also tested using the tPA capture assay. Only S35225 reduced circulating active PAI-1 levels in vivo (maximum inhibition of 76+/-5% at 10 mg/kg and 53+/-5% at 3 mg/kg). In contrast to Tiplaxtinin and WAY140312, S35225 is a direct inhibitor of PAI-1 activity in vitro in rat and human plasmas where vitronectin is constitutively present as well as in vivo in the blood after an intravenous administration in the rat.

Characterization of novel Checkpoint kinase 1 inhibitors by in vitro assays and in human cancer cells treated with topoisomerase inhibitors

AIMS We have developed biochemical and cell based assays to characterize small therapeutic molecules that inhibit the DNA damage checkpoint enzyme, Chk1 (Checkpoint kinase 1). MAIN METHODS To prepare a screen of large chemical libraries, we purified the full-length and the catalytic domain versions of human Chk1. We characterized their properties and then selected full-length Chk1 as the variant most suitable for screening. We then identified and characterized structurally different Chk1 inhibitors in cell based-assays by measuring cytotoxicity and checkpoint bypass activity. KEY FINDINGS We treated human cells with topoisomerase I inhibitors and demonstrated that at the time of Chk1 inhibitor addition, the cells have damaged DNA and activated Chk1. One Chk1 inhibitor, the indolocarbazole S27888, was active in the checkpoint bypass assay. SIGNIFICANCE Knowing that the protein kinase inhibitory properties are different for each inhibitor, it seems that only a limited range of inhibitory activity is tolerated by cells. Chk1 has an essential role in determining how cancer cells respond to genotoxic treatments, therefore, inhibitors of this protein kinase are of great medical interest.

New tripeptidic thrombin inhibitors. Influence of P2 and P3 residues on activity and selectivity

Structural variations of P2 and P3 residues in tripeptidic boroarginine thrombin inhibitors led to compounds with similar potency than reference compound DuP 714, but with enhanced selectivity for thrombin compared to plasmin.

Disease-modifying anti-osteoarthritic drugs: current therapies and new prospects around protease inhibition

Although osteoarthritis is commonly found in the elderly, the pathophysiological mechanisms of this degenerative disease are still poorly understood. Among the many factors leading to cartilage degradation, the proteolytic activity of a panel of enzymes seems to play a major role, leading to the cleavage of collagen and proteoglycans, the two main components of cartilagenous matrix. Aspartic, cysteine, serine and metalloproteases have been detected in or around the osteoarthritic articulation and their enzymatic activity is reviewed here. The cartilage-sparing properties of the respective inhibitors are listed, giving rise to the hypothesis that some of these compounds could be developed as chondroprotective agents.

Design, synthesis, and biological evaluation of 1,5-benzothiazepine-4-one derivatives targeting factor VIIa/tissue factor

The 1,5-benzothiazepine-4-one scaffold was earlier shown to provide efficient protease inhibitors. In this contribution, we describe its use in the design of factor VIIa/tissue factor inhibitors. A series containing a scaffold non-substituted on its aryl part led to compound 20 with an IC(50) of 2.16 microM. Following molecular modelling studies of this compound, a second series was prepared, which necessitated the synthesis of protected 7- or 8-substituted 1,5-benzothiazepine-4-one derivatives.

IDENTIFICATION AND CHARACTERISATION OF THE ISOMERS OF CYCLOTHIAZIDE RESPONSIBLE FOR POTENTIATING AMPA CURRENT

Abstract The four diastereoisomers of cyclothiazide have been separated by chromatography. The most potent fraction was split further into two enantiomers by chiral HPLC. The most active isomer is five times more potent than cyclothiazide in potentiating AMPA transmission in rat cortex mRNA injected Xenopus oocytes.

Phosphoramidon inhibits the conversion of big ET-1 into ET-1 in the pithed rat and in isolated perfused rat kidneys

Endothelin-1 (ET-1) is a powerful renal vasoconstrictor peptide that could be implicated in acute renal failure. The aim of this study was to test the effects of the endothelin-converting enzyme (ECE) inhibitor phosphoramidon on pressor responses to ET-1 and its precursor, big ET-1, in isolated perfused rat kidneys and in pithed rats. In Tyrode-perfused rat kidneys, both big ET-1 (0.2-0.4 nmol) and ET-1 (0.01-0.03 nmol) evoked dose-dependent constrictions. Phosphoramidon (10 microM) selectively inhibited the pressor responses to big ET-1 without altering those to ET-1, norepinephrine, angiotensin I (AT-I), or angiotensin II (AT-II). The metalloprotease inhibitor thiorphan, but not the angiotensin-converting enzyme (ACE) inhibitor perindoprilate, also selectively inhibited the renal constrictions caused by big ET-1 but not those induced by ET-1. In vivo, both big ET-1 and ET-1 (0.5-2 nmol/kg) evoked pressor responses that were augmented by indomethacin (15 mg/kg) and L-NNA (1 mg/kg/min). Phosphoramidon selectively inhibited the pressor responses to big ET-1 (ID50: 78 micrograms/kg/min) without affecting those to ET-1, AT-I, or AT-II. These data illustrate that the pressor responses to big ET-1 in the rat, both in vivo and in vitro, are due to its conversion into ET-1 by a phosphoramidon-sensitive ECE. In the rat, phosphoramidon selectively inhibits ECE but not ACE both in vitro and in vivo.

Design, Synthesis, and Optimization of Balanced Dual NK1/NK3 Receptor Antagonists.

In connection with a program directed at potent and balanced dual NK1/NK3 receptor ligands, a focused exploration of an original class of peptidomimetic derivatives was performed. The rational design and molecular hybridization of a novel phenylalanine core series was achieved to maximize the in vitro affinity and antagonism at both human NK1 and NK3 receptors. This study led to the identification of a new potent dual NK1/NK3 antagonist with pK i values of 8.6 and 8.1, respectively.