Pharmacokinetics of KA2237, a novel selective inhibitor of PI3K-β and
PI3K-δ, in patients: A first-in-human study using PK modelling to
predict drug concentrations during dose escalation
Abstract
Aims: KA2237, an oral, potent and selective, inhibitor of the PI3K β and
δ isoforms, was evaluated for safety, tolerability and pharmacokinetics
(PK) in patients with B-cell lymphoma. KA2237 is metabolised by CYP3A4/5
but also demonstrated mechanism-based inhibition (MBI) of CYP3A4/5. An
MBI mechanistic dynamic model was used to predict drug accumulation
after repeat dosing of KA2237. This model, along with clinical safety
data, was used to guide safe dose escalation. Methods: An open-label,
single arm, dose escalation study was carried out in patients, dosed
orally with KA2237 at 50, 100, 200 and 400 mg once daily. Complete
plasma profiles were obtained on Day 1 and Day 14 of dosing and pre-dose
(Cmin) samples were obtained on Days 2-7. The MBI model was validated
and used to calculate drug levels and predict potential drug
accumulation during dose escalation. Results: KA2237 elimination
half-life was around 20-30 h, compatible with once daily dosing
regimens. The accumulation of KA2237 was around 4-fold after the highest
dose of 400 mg and around 3-fold after administration of 200 mg, which
is considered the maximum tolerated dose (MTD). The MBI model accurately
predicted this accumulation. Conclusions: Drugs that demonstrate MBI and
potential auto-inhibition can be successfully developed, provided that
models are developed to assess the extent of accumulation prior to the
start of FIH clinical studies. This, along with the close monitoring of
drug levels and clinical safety data can be used to guide dose
escalation and lead to the safe conduct of clinical studies.