Marc Trellu scite author profile

Endothelial dysfunction is a hallmark of tissue injury and is believed to initiate the development of vascular diseases. Sphingosine-1 phosphate receptor-1 (S1P1) plays fundamental physiological roles in endothelial function and lymphocyte homing. Currently available clinical molecules that target this receptor are desensitizing and are essentially S1P1 functional antagonists that cause lymphopenia. They are clinically beneficial in autoimmune diseases such as multiple sclerosis. In patients, several side effects of S1P1 desensitization have been attributed to endothelial damage, suggesting that drugs with the opposite effect, namely, the ability to activate S1P1, could help to restore endothelial homeostasis. We found and characterized a biased agonist of S1P1, SAR247799, which preferentially activated downstream G protein signaling to a greater extent than β-arrestin and internalization signaling pathways. SAR247799 activated S1P1 on endothelium without causing receptor desensitization and potently activated protection pathways in human endothelial cells. In a pig model of coronary endothelial damage, SAR247799 improved the microvascular hyperemic response without reducing lymphocyte numbers. Similarly, in a rat model of renal ischemia/reperfusion injury, SAR247799 preserved renal structure and function at doses that did not induce S1P1-desensitizing effects, such as lymphopenia and lung vascular leakage. In contrast, a clinically used S1P1 functional antagonist, siponimod, conferred minimal renal protection and desensitized S1P1. These findings demonstrate that sustained S1P1 activation can occur pharmacologically without compromising the immune response, providing a new approach to treat diseases associated with endothelial dysfunction and vascular hyperpermeability.

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Reversibility of the anti‐FXa activity of idrabiotaparinux (biotinylated idraparinux) by intravenous avidin infusion

Paty

Trellu

Destors

et al. 2010

Journal of Thrombosis and Haemostasis

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Summary. Background: Idraparinux is an inhibitor of activated factor X (FXa) with a long half-life allowing once-weekly dosing. Idrabiotaparinux is a biotinylated version of idraparinux; its activity can be reversed with avidin. Objective: To investigate the tolerability, safety and pharmacodynamics of avidin in healthy subjects and patients with deep vein thrombosis (DVT) receiving idrabiotaparinux. Patients and Methods: In a placebo-controlled, randomized, double-blind Phase I study, 41 healthy males received subcutaneous idrabiotaparinux before being randomized to a 30-min intravenous avidin infusion or placebo. Idrabiotaparinux plus avidin were re-administered 10-14 months later in eight subjects. In addition, in a prospective substudy of the Phase III EQUINOX trial, 55 patients who received weekly idrabiotaparinux for 6 months were randomized to receive either 100 mg avidin (n = 33) or placebo (n = 22). The primary activity outcome was anti-FXa activity calculated immediately before and after avidin infusion. Adverse events were recorded to assess safety and tolerability. Results: Avidin rapidly reversed the anti-FXa activity of idrabiotaparinux, ranging from 66.1 to 90.3% in healthy subjects and from 67 to 97% (mean 78%) in DVT patients. Avidin was well tolerated, with a similar nature and frequency of adverse events to placebo. No venous thromboembolism recurrence occurred in the 3-month post-avidin infusion. Conclusion: A 30-min intravenous infusion of avidin 100 mg is well tolerated, safe, and offers immediate and specific reversibility both after single and repeated doses of idrabiotaparinux in healthy subjects, and in DVT patients following a 6-month treatment period.

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The pharmacokinetics of idraparinux, a long-acting indirect factor Xa inhibitor: population pharmacokinetic analysis from Phase III clinical trials

Veyrat‐Follet

Vivier

Trellu

et al. 2009

Journal of Thrombosis and Haemostasis

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Summary. Background: Idraparinux, a long-acting synthetic pentasaccharide, is a specific antithrombin-dependent inhibitor of activated factor X that has been investigated in the treatment and prevention of thromboembolic events. Objectives: To characterize the population pharmacokinetic profile of idraparinux in patients enrolled in van Gogh and Amadeus Phase III clinical trials. Patients and methods: Idraparinux was administered once-weekly subcutaneously at a dose of 2.5 mg, or 2.5 mg (first dose) and then 1.5 mg for patients with severe renal insufficiency (creatinine clearance <30 mL min ). A population pharmacokinetic model was developed using data from 704 patients with acute deep-vein thrombosis or pulmonary embolism, 1310 patients suffering from atrial fibrillation, and 40 healthy subjects. Potential covariates analyzed included demographics (age, sex, weight and ethnicity), and serum creatinine and creatinine clearance determinations. Results: A three-compartment model best described idraparinux pharmacokinetics, with interindividual variability on clearance, central volume of distribution, and absorption rate constant; residual variability was low. Typical clearance, central volume of distribution, absorption rate constant and volume of distribution at steady-state were 0.0255 L h )1 , 3.36 L, 1.37 h and 30.8 L, respectively. Peak concentration was reached at 2.5 h. The terminal half-life was 66.3 days and time to steady-state was 35 weeks. At steady-state, exposures were similar for patients without and with severe renal impairment receiving adjusted-dose. Creatinine clearance was the most important covariate affecting idraparinux clearance. The particular characteristics of idraparinux -rapid onset of action and long-acting anticoagulant effect -offer interesting clinical perspectives currently under investigation with idrabiotaparinux, the reversible biotinylated form of idraparinux.

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SAR340835, a Novel Selective Na⁺/Ca²⁺ Exchanger Inhibitor, Improves Cardiac Function and Restores Sympathovagal Balance in Heart Failure

Pelat

Barbe

Daveu

et al. 2021

J Pharmacol Exp Ther

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New metabolic and pharmacokinetic characteristics of thiocolchicoside and its active metabolite in healthy humans

Trellu

Filali-Ansary

Francon³

et al. 2004

Fundamemntal Clinical Pharma

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Thiocolchicoside (TCC) has been prescribed for several years as a muscle relaxant drug, but its pharmacokinetic (PK) profile and metabolism still remain largely unknown. Therefore, we re-investigated its metabolism and PK, and we assessed the muscle relaxant properties of its metabolites. After oral administration of 8 mg (a therapeutic dose) of 14C-labelled TCC to healthy volunteers, we found no detectable TCC in plasma, urine or faeces. On the other hand, the aglycone derivative obtained after de-glycosylation of TCC (M2) was observed and, in addition, we identified, as the major circulating metabolic entity, 3-O-glucuronidated aglycone (M1) obtained after glucuro-conjugation of M2. One hour after oral administration, M1 plus M2 accounted for more than 75% of the circulating total radioactivity. The pharmacological activity of these metabolites was assessed using a rat model, the muscle relaxant activity of M1 was similar to that of TCC whereas M2 was devoid of any activity. Subsequently, to investigate the PK profile of TCC in human PK studies, we developed and validated a specific bioanalytical method that combines liquid chromatography and ultraviolet detection to assay both active entities. After oral administration, TCC was not quantifiable with an lower limit of quantification set at 1 ng/mL, whereas its active metabolite M1 was detected. M1 appeared rapidly in plasma (tmax=1 h) and was eliminated with an apparent terminal half-life of 7.3 h. In contrast, after intramuscular administration both active entities (TCC and M1) were present; TCC was rapidly absorbed (tmax=0.4 h) and eliminated with an apparent terminal half-life of 1.5 h. M1 concentration peaked at 5 h and this metabolite was eliminated with an apparent terminal half-life of 8.6 h. As TCC and M1 present an equipotent pharmacological activity, the relative oral pharmacological bioavailability of TCC vs. intramuscular administration was calculated and represented 25%. Therefore, to correctly investigate the PK and bioequivalence of TCC, the biological samples obtained must be assayed with a bioanalytical method able to specifically analyse TCC and its active metabolite M1.

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Marc Trellu

A G protein–biased S1P ₁ agonist, SAR247799, protects endothelial cells without affecting lymphocyte numbers

Reversibility of the anti‐FXa activity of idrabiotaparinux (biotinylated idraparinux) by intravenous avidin infusion

The pharmacokinetics of idraparinux, a long-acting indirect factor Xa inhibitor: population pharmacokinetic analysis from Phase III clinical trials

SAR340835, a Novel Selective Na⁺/Ca²⁺ Exchanger Inhibitor, Improves Cardiac Function and Restores Sympathovagal Balance in Heart Failure

New metabolic and pharmacokinetic characteristics of thiocolchicoside and its active metabolite in healthy humans

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Marc Trellu

A G protein–biased S1P 1 agonist, SAR247799, protects endothelial cells without affecting lymphocyte numbers

Reversibility of the anti‐FXa activity of idrabiotaparinux (biotinylated idraparinux) by intravenous avidin infusion

The pharmacokinetics of idraparinux, a long-acting indirect factor Xa inhibitor: population pharmacokinetic analysis from Phase III clinical trials

SAR340835, a Novel Selective Na+/Ca2+ Exchanger Inhibitor, Improves Cardiac Function and Restores Sympathovagal Balance in Heart Failure

New metabolic and pharmacokinetic characteristics of thiocolchicoside and its active metabolite in healthy humans

Contact Info

Product

Resources

About

A G protein–biased S1P ₁ agonist, SAR247799, protects endothelial cells without affecting lymphocyte numbers

SAR340835, a Novel Selective Na⁺/Ca²⁺ Exchanger Inhibitor, Improves Cardiac Function and Restores Sympathovagal Balance in Heart Failure