Pharmacokinetic and drug metabolism properties of novel therapeutic modalities

Abstract

The discovery and development of novel pharmaceutical therapies is rapidly transitioning from a small molecule-dominated focus to a more balanced portfolio consisting of small molecules, monoclonal antibodies, engineered proteins (modified endogenous proteins, bispecific antibodies, and fusion proteins), oligonucleotides, and gene-based therapies. This commentary, and the special issue as a whole, aims to highlight these emerging modalities and the efforts underway to better understand their unique pharmacokinetic and absorption, disposition, metabolism, and excretion (ADME) properties. The articles highlighted herein can be broadly grouped into those focusing on the ADME properties of novel therapeutics, those exploring targeted-delivery strategies, and finally, those discussing oligonucleotide therapies. It is also evident that whereas the field in general continues to progress toward new and more complex molecules, a significant amount of effort is still being placed on antibody-drug conjugates. As therapeutic molecules become increasingly complex, a parallel demand for advancements in experimental and analytical tools will become increasingly evident, both to increase the speed and efficiency of identifying safe and efficacious molecules and simultaneously decreasing our dependence on in vivo studies in preclinical species. The research and commentary included in this special issue will provide researchers, clinicians, and the patients we serve more options in the ongoing fight against grievous illnesses and unmet medical needs.