Takeda announced that data from the Phase 2 study of orexin receptor 2 (OX2R) agonist TAK-994 in patients with narcolepsy type 1 (NT1) was published in The New England Journal of Medicine. These data represent the first-ever clinical data to be published of an oral orexin agonist in NT1. The article appears in the July 27 issue of the journal and is titled “Oral Orexin Receptor 2 Agonist in Narcolepsy Type 1.”
“There is significant unmet need for patients with narcolepsy, a chronic neurologic disease caused by severe loss or absence of the neuropeptide orexin, also known as hypocretin. Today, most patients with NT1 require multiple therapies that only manage excessive daytime sleepiness and cataplexy. Moreover, none of the available agents target the underlying cause of the disease,” said one of the TAK-994 study principal investigators Yves Dauvilliers, M.D., Director, Sleep-Wake Disorders Center, Department of Neurology, Gui de Chauliac Hospital, Montpellier, France. “Although this study was not designed to compare TAK-994, the first-in-class oral OX2R agonist, with other narcolepsy drugs, its effectiveness on objective measures of wakefulness, self-reported assessment of daytime sleepiness, and frequency of cataplexy was impressive. However, TAK-994 was associated with hepatotoxicity, therefore studies with new well-tolerated OX2R agonists are strongly requested.”
About the TAK-994-1501 Phase 2 Study
Patients aged 18-65 years with confirmed NT1 were randomly assigned to twice-daily oral TAK-994 30, 90, 180 mg, or placebo.
Patients completing the Phase 2 treatment period were eligible for inclusion in an extension trial. Limitations of the trial are that it was terminated early, the number of participants was small, and there was substantial dropout and missing data. The trial was prematurely terminated due to hepatotoxicity in several patients and this agent will not go forward as a treatment for narcolepsy but may indicate a biologic target for future development. Another Takeda oral OX2R agonist is being evaluated in two Phase 2, randomized, double-blind, placebo-controlled trials for the treatment of narcolepsy.
Of 73 patients enrolled, 17 received TAK-994 30 mg twice daily, 20 received 90 mg twice daily, 19 received 180 mg twice daily, and 17 received placebo.
After 8 weeks of TAK-994, sleep latency on MWT was above the normal threshold (>=20 minutes) for most patients. Similar effects were observed for the ESS.
Forty-four (79%) patients treated with TAK-994 had adverse events; the most common were urinary urgency or frequency. More patients experienced TEAEs with TAK-994 than with placebo, with a greater number and severity of TEAEs observed with higher TAK-994 doses. Most TEAEs were mild in severity. Eight patients exceeded predefined alanine transaminase (ALT) and/or aspartate transaminase (AST) thresholds for subject discontinuation, including three cases meeting Hy’s law criteria (ALT/AST abnormalities >3 x upper limit of normal combined with bilirubin >2 x upper limit of normal; two with TAK-994 180 mg and one with 90 mg), indicating drug-induced hepatotoxicity and leading to the early termination of the trial. No specific risk factors were identified. The current hypothesis is that TAK-994 associated drug-induced liver injury is caused by reactive metabolites and is unlikely to be an on-target effect of OX2R activation as orexin receptors are not expressed on human hepatocytes or on most immune cells.
“As leaders in orexin research and development, Takeda is committed to applying our learnings from the TAK-994 trial and our deep and growing understanding of orexin biology as we drive forward the research and development of multiple orexin assets. We would like to thank the patients, caregivers and investigators who participated in the TAK-994 clinical trials and are committed to continue developing and delivering transformative treatments to people living with narcolepsy and other hypersomnolence disorders. Takeda is also exploring other indications that could benefit from this mechanism,” said Sarah Sheikh, M.Sc., B.M., B.Ch, Head, Neuroscience Therapeutic Area Unit at Takeda. “Orexin programs in development include the oral OX2R agonist TAK-861, currently being evaluated in two Phase 2 trials for the treatment of narcolepsy type 1 (NCT05687903) and narcolepsy type 2 (NCT05687916), and danavorexton (TAK-925), an intravenously administered OX2R agonist we are investigating in a Phase 2 study of people with obstructive sleep apnea after general anesthesia (NCT05814016).”
Source: Takeda Pharmaceutical Company