LTA4H inhibitor LYS006: Clinical PK/PD and safety in a randomized phase I clinical trial.
Christian LoescheDamien PicardBenjamin Van HoorickImelda SchuhmannPetra JägerKai KleinCarole SchuhlerGebhard ThomaChristian MarkertBirk PollerNatasa ZamurovicH Markus WeissHeike OttoMartin FinkTill A RöhnPublished in: Clinical and translational science (2024)
LYS006 is a novel, highly potent and selective, new-generation leukotriene A4 hydrolase (LTA4H) inhibitor in clinical development for the treatment of neutrophil-driven inflammatory diseases. We describe the complex pharmacokinetic to pharmacodynamic (PD) relationship in blood, plasma, and skin of LYS006-treated nonclinical species and healthy human participants. In a randomized first in human study, participants were exposed to single ascending doses up to 100 mg and multiple ascending doses up to 80 mg b.i.d.. LYS006 showed rapid absorption, overall dose proportional plasma exposure and nonlinear blood to plasma distribution caused by saturable target binding. The compound efficiently inhibited LTB4 production in human blood and skin blister cells, leading to greater than 90% predose target inhibition from day 1 after treatment initiation at doses of 20 mg b.i.d. and above. Slow re-distribution from target expressing cells resulted in a long terminal half-life and a long-lasting PD effect in ex vivo stimulated blood and skin cells despite low plasma exposures. LYS006 was well-tolerated and demonstrated a favorable safety profile up to highest doses tested, without any dose-limiting toxicity. This supported further clinical development in phase II studies in predominantly neutrophil-driven inflammatory conditions, such as hidradenitis suppurativa, inflammatory acne, and ulcerative colitis.
Keyphrases
- induced apoptosis
- clinical trial
- endothelial cells
- phase ii
- cell cycle arrest
- oxidative stress
- hidradenitis suppurativa
- open label
- endoplasmic reticulum stress
- randomized controlled trial
- cell death
- air pollution
- coronary artery
- cell proliferation
- pulmonary artery
- study protocol
- pulmonary hypertension
- case control
- oxide nanoparticles
- replacement therapy