Background and objective: Biosimilars are approved biologics that are comparable to an originator product with respect to quality, safety and efficacy. Herein, the authors describe the functional and non-clinical studies designed to determine the biosimilarity of GP2015 and originator etanercept (Enbrel®).
Methods: The development of an Enbrel biosimilar (GP2015) involved extensive characterization of the originator. A step-wise target-directed and iterative technical development program involving state-of-the-art functional characterization studies and non-clinical evaluations (pharmacokinetics, pharmacodynamics and safety/toxicology) was applied with the aim of confirming that GP2015 is comparable to originator (Enbrel) at the non-clinical level.
Results: In in vitro tests, GP2015 and Enbrel had comparable binding affinities to TNF-α, C1q complement and a complete panel of Fc-Receptors. Comprehensive functional characterization testing confirmed the comparability of GP2015 with Enbrel in terms of its ability to bind to and neutralize TNF-α, which reflects the primary mechanism of action of etanercept. Non-clinical data confirmed that the proposed biosimilar to Enbrel, GP2015, is comparable with regards to its pharmacokinetic properties and pharmacodynamic activity, and efficacy as well as safety/toxicity.
Conclusion: The proposed Enbrel biosimilar, GP2015, was shown to be comparable to its originator product in studies designed to confirm biosimilarity.
Keywords: Enbrel; GP2015; TNF-α; biosimilars; disease-modifying drugs; etanercept.