ABSTRACT
JNJ-10450232 (NTM-006), a novel non-opioid, non-nonsteroidal anti-inflammatory drug with structural similarities to acetaminophen, demonstrated anti-pyretic and/or analgesic activities in preclinical models and humans and reduced potential to cause hepatotoxicity in preclinical species. Metabolism and disposition of JNJ-10450232 (NTM-006) following oral administration to rats, dogs, monkeys and humans are reported. Urinary excretion was the major route of elimination based on recovery of 88.6% (rats) and 73.7% (dogs) of oral dose. The compound was extensively metabolized based on low recovery of unchanged drug in excreta from rats (11.3%) and dogs (18.4%). Clearance is driven by O-glucuronidation, amide hydrolysis, O-sulfation and methyl oxidation pathways. The combination of metabolic pathways driving clearance in human is covered in at least one preclinical species despite a few species-dependent pathways. O-Glucuronidation was the major primary metabolic pathway of JNJ-10450232 (NTM-006) in dogs, monkeys and humans, although amide hydrolysis was another major primary metabolic pathway in rats and dogs. A minor bioactivation pathway to quinone-imine is observed only in monkeys and humans. Unchanged drug was the major circulatory component in all species investigated. Except for metabolic pathways unique to the 5-methyl-1H-pyrazole-3-carboxamide moiety, metabolism and disposition of JNJ-10450232 (NTM-006) are similar to acetaminophen across species.
ABSTRACT
JNJ-10450232 (NTM-006) is a new molecular entity that is structurally related to acetaminophen. A comprehensive non-clinical safety program was conducted to support first-in-human and clinical efficacy studies based on preclinical data suggesting that the compound has comparable or enhanced antinociceptive and antipyretic efficacy without causing hepatotoxicity at supratherapeutic doses. No hepatic toxicity was noted in a mouse model sensitive to acetaminophen hepatotoxicity or in rats, dogs, and non-human primates in 28-day repeat dose toxicity studies at and above doses/exposures at which acetaminophen is known to cause hepatotoxicity. In the 28-day toxicity studies, all treatment-related findings were monitorable and reversible. Methemoglobinemia, which was observed in dogs and to a lesser extent in rats, is also observed with acetaminophen. This finding is considered not relevant to humans due to species differences in metabolism. Thyroid hypertrophy and hyperplasia were also observed in dogs and were shown to be a consequence of a species-specific UGT induction also demonstrated with increased thyroid hormone metabolism. Indirect bilirubin elevation was observed in rats as a result of UGT1A1 Inhibition. JNJ-10450232 (NTM-006) had no toxicologically relevant findings in safety pharmacology or genotoxicity studies. Together, these data supported progressing into safety and efficacy studies in humans.
ABSTRACT
JNJ-10450232 (NTM-006) is a new molecular entity that comprises structural similarities to acetaminophen and provides comparable analgesia in animals and humans without causing the hepatotoxicity associated with acetaminophen overdose in preclinical models. This double-blind, placebo-controlled, first-in-human study evaluated the safety, tolerability, and pharmacokinetics of JNJ-10450232 (NTM-006) following single (50-6000 mg) and multiple (250-2500 mg twice daily for 8 days) doses in healthy male volunteers. JNJ-10450232 (NTM-006) was absorbed within 1-3 h, except at high doses at which Cmax was delayed and bimodal, while increases in AUC were more than dose proportional. CL/F and Vd/F decreased approximately 3-fold with increasing single doses up to 6000 mg and multiple doses up to 1000 mg, resulting in similar t½ values that ranged from 8 to 10 h across doses. JNJ-10450232 (NTM-006) was generally safe and well tolerated, and no dose-limiting toxicities were observed. Transient increases in indirect bilirubin were noted at post-baseline timepoints due to UGT1A1 inhibition, without any evidence of adverse hepatic effects. Macular rash and generalized erythema were the most common drug-related adverse events after multiple doses.
