ABSTRACT
The disposition of a novel kynurenine monooxygenase inhibitor, CHDI-340246, was investigated in vitro and in animals.In vitro, there was minimal metabolic turnover of CHDI-340246 in all species. The protein binding was higher in human plasma (99.7%) relative to other species.In all species, blood clearance was low (<20% of liver blood flow) and volume of distribution was small (<0.5 L/kg). The terminal half-life was longer in monkeys (9 hr) than in mice, rats, or dogs (1-2 hr). CHDI-340246 was orally bioavailable (>60%) in all species.In rats, [14C]CHDI-340246 showed wide distribution of radioactivity in all tissues except brain and testes. In rats, the parent drug was the major circulating moiety with minor amounts of a sulphate conjugate of an O-dealkylated metabolite. The elimination occurred via the urinary route and to a lesser extent by biliary route, but mostly as metabolites. In cynomolgus monkeys, the parent drug predominated in plasma with only trace amounts of metabolites detected.Acyl glucuronide conjugate of CHDI-340246 was not detected in plasma of rats or monkeys.Overall, the ADME profile of CHDI-340246 was favourable in rats and monkeys for potential evaluation of KMO inhibition in humans.
Subject(s)
Kynurenine , Pyrimidines , Animals , Animals, Laboratory , Dogs , Mice , Mixed Function Oxygenases , Rats , Species SpecificityABSTRACT
RTH258 (brolucizumab) is a humanized single chain antibody fragment, the smallest functional unit of an antibody designed to target vascular endothelial growth factor in angiogenic retinal disease. To further understand the safe use of RTH258, this study assessed the potential impact of intravitreal RTH258 on pre- and postnatal development in the offspring of cynomolgus monkeys following administration to the mother. Three groups of 16 pregnant females were included: a low dose group (RTH258 3 mg/50 µl [60 mg/ml]), a high dose group (RTH258 6 mg/50 µl [120 mg/ml]), and a control group. Maternal animals were administered a single injection of 50 µl in the right eye once every four weeks. Animals were observed daily and detailed observations were collected before and after the first dose, and then weekly thereafter. Following parturition, observations of infants included external, morphological, and ophthalmic examinations; neurobehavioral test battery; grip strength; and skeletal development. Blood samples for hematology, coagulation, and clinical chemistry were collected from non-fasted maternal and infant animals. No RTH258-related deaths occurred in maternal dams or infants. No RTH258-related clinical observations were noted in maternal animals or in surviving infants - there were no changes in gestation length; pregnancy loss; deaths; body weight/weight change; infant grip strength; infant external, morphological, or skeletal evaluations; ophthalmoscopy or neurobehavioral observations; or clinical pathology parameters. RTH258 had no impact on pregnancy or parturition; embryo-fetal development; or survival, growth, or postnatal development of offspring when administered via repeated intravitreal administration.