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<i>DPYD</i> Genotyping and Predicting Fluoropyrimidine Toxicity: Where do we Stand?

Lucija Lešnjaković, Lana Ganoci, Ivan Bilić, Livija Šimičević, Iva Mucalo, Stjepko Pleština, Nada Božina

2023Pharmacogenomics14 citationsDOI

Abstract

Fluoropyrimidines (FPs) are antineoplastic drugs widely used in the treatment of various solid tumors. Nearly 30% of patients treated with FP chemotherapy experience severe FP-related toxicity, and in some cases, toxicity can be fatal. Patients with reduced activity of DPD, the main enzyme responsible for the breakdown of FP, are at an increased risk of experiencing severe FP-related toxicity. While European regulatory agencies and clinical societies recommend pre-treatment DPD deficiency screening for patients starting treatment with FPs, this is not the case with American ones. Pharmacogenomic guidelines issued by several pharmacogenetic organizations worldwide recommend testing four DPD gene (DPYD) risk variants, but these can predict only a proportion of toxicity cases. New evidence on additional common DPYD polymorphisms, as well as identification and functional characterization of rare DPYD variants, could partially address the missing heritability of DPD deficiency and FP-related toxicity.

Topics & Concepts

DPYDPharmacogenomicsToxicityPharmacogeneticsGenotypingMedicineDihydropyrimidine dehydrogenaseOncologyPharmacologyInternal medicineChemotherapyFluorouracilBiologyGenotypeGeneticsGeneThymidylate synthaseColorectal Cancer Treatments and StudiesBiochemical and Molecular ResearchPancreatic and Hepatic Oncology Research