Pharmacodynamics, safety, tolerability and pharmacokinetics of a single oral dose of an engineered phenylalanine ammonia-lyase in patients with phenylketonuria

Timothy Nicholas Fazio; Louise Healy; Tim Heise; Anita Inwood; Catherine Manolikos; Yusof Rahman; Hans-Juergen Woerle; Christian J Hendriksz

doi:10.1016/j.ymgmr.2023.101012

Pharmacodynamics, safety, tolerability and pharmacokinetics of a single oral dose of an engineered phenylalanine ammonia-lyase in patients with phenylketonuria

Mol Genet Metab Rep. 2023 Sep 26:37:101012. doi: 10.1016/j.ymgmr.2023.101012. eCollection 2023 Dec.

Authors

Timothy Nicholas Fazio¹, Louise Healy², Tim Heise³, Anita Inwood⁴, Catherine Manolikos⁵, Yusof Rahman⁶, Hans-Juergen Woerle⁷, Christian J Hendriksz⁷

Affiliations

¹ Royal Melbourne Hospital, Melbourne, Victoria, Australia; Melbourne Medical School, University of Melbourne, Parkville, Victoria, Australia.
² Metabolic Dietary Disorders Association, PO Box 33, Montrose, Victoria, 3765, Australia.
³ Profil, Neuss, Germany.
⁴ Queensland Lifespan Metabolic Medicine Service, Brisbane, Queensland, Australia.
⁵ Royal Perth Hospital, Perth, Australia.
⁶ Department of Genetic Medicine, Westmead Hospital, Sydney, Australia.
⁷ Nestlé Health Science, Avenue Nestlé 55, 1800, Vevey, Switzerland.

Abstract

The cornerstone treatment of hyperphenylalaninemia (HPA) and phenylketonuria (PKU) is a lifelong low-protein diet with phenylalanine (Phe) free L-amino acid supplements. However, the PKU diet has significant shortcomings, and there is a clinically unmet need for new therapeutics to improve patient outcomes. CDX-6114 is a modified phenylalanine ammonia-lyase (PAL) enzyme obtained by a mutation in the Anabaena variabilis PAL sequence. CodeEvolver® protein engineering technology has been applied to improve the degradation resistance of the enzyme. In our first phase I trial, 19 patients were given a single oral dose of CDX-6114 at 7.5 g, 2.5 g, 0.7 g, or placebo in a cross-over design. After an overnight fast, patients received a standardised breakfast of 20 g of protein, thus exceeding the dietary recommendations for a single meal in patients with PKU. Plasma levels of Phe and cinnamic acid (CA) were measured over a 5-h period following CDX-6114 dosing. During the development of CDX-6114, a stability assessment using reverse-phase high-performance liquid chromatography (HPLC) assay revealed two peaks. The second peak was identified as CA. It was not previously known that as part of the mechanism of action, the CA remained associated with the protein following the conversion of Phe. Thus, recalculating the historical PAL enzyme amounts in CDX-6114 bulk substance was necessary. An updated extinction coefficient was achieved by applying a correction factor of 0.771 to previously reported doses. Postprandial plasma levels of Phe increased in all dose cohorts over time between 10% and 30% from baseline, although the actual peak of Phe levels was not achieved within the 5-h observation. When accounting for the interquartile ranges, these concentrations were similar to the placebo. As plasma levels of Phe were no longer a reliable marker for pharmacodynamics, the consistently detectable amount of CA seen in all patients who received CDX-6114 provided proof of the enzymatic activity of CDX-6114 in metabolising gastrointestinal Phe. Peak levels of CA were seen shortly after CDX-6114 intake, with a rapid decline, and remained low compared with the plasma Phe levels. This pattern indicates a short half-life, possibly due to the liquid formulation or the inability to withstand the lower pH in the human stomach compared with animal models in earlier studies. This was the first trial in patients with PKU to establish the safety and tolerability of CDX-6114. A single dose of CDX-6114 was safe and well tolerated, with no serious adverse events or presence of anti-drug antibodies detected. Efficacy will be explored in future trials using an optimised formulation.

Keywords: CDX-6114; Cinnamic acid; Enzyme; Phenylalanine hydroxylase; Phenylketonuria.