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Application of Pharmacokinetic Prediction Platforms in the Design of Optimized Anti-Cancer Drugs.

Tyler C BeckKendra SpringsJordan E MorningstarCatherine M MillsAndrew StoddardLilong GuoKelsey S MooreCortney GensemerRachel BiggsTaylor PetrucciJennie KwonKristina StayerNatalie KorenJaclyn DunneDiana FulmerAyesha VohraLe MaiSarah DooleyJulianna WeningerYuri K PetersonPatrick M WosterThomas A DixRussell A Norris
Published in: Molecules (Basel, Switzerland) (2022)
Cancer is the second most common cause of death in the United States, accounting for 602,350 deaths in 2020. Cancer-related death rates have declined by 27% over the past two decades, partially due to the identification of novel anti-cancer drugs. Despite improvements in cancer treatment, newly approved oncology drugs are associated with increased toxicity risk. These toxicities may be mitigated by pharmacokinetic optimization and reductions in off-target interactions. As such, there is a need for early-stage implementation of pharmacokinetic (PK) prediction tools. Several PK prediction platforms exist, including pkCSM, SuperCypsPred, Pred-hERG, Similarity Ensemble Approach (SEA), and SwissADME. These tools can be used in screening hits, allowing for the selection of compounds were reduced toxicity and/or risk of attrition. In this short commentary, we used PK prediction tools in the optimization of mitogen activated extracellular signal-related kinase kinase 1 (MEK1) inhibitors. In doing so, we identified MEK1 inhibitors with retained activity and optimized predictive PK properties, devoid of hERG inhibition. These data support the use of publicly available PK prediction platforms in early-stage drug discovery to design safer drugs.
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