Safa Souissi, Wissem Ben Azzouz, Mouna Ben Sassi, Syrine Ben Hammamia, Mouna Daldoul, Hanene El Jebari, Mohamed Zouari, Rim Charfi, Riadh Daghfous, Emna Gaies, Sameh Trabelsi
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引用次数: 0
Abstract
Objectives: Thiopurine S-methyltransferase (TPMT) polymorphisms are associated with low or absent enzyme activity and, consequently, increased myelosuppression risk after conventional doses of azathioprine. The distribution of frequencies for deficient TPMT genotypes differs between ethnic groups. Due to limited data in Tunisia, we aimed to detect TPMT variant alleles (TPMT*2, *3B, *3C, *4) in Tunisian patients on azathioprine, and to investigate the concordance between TPMT phenotyping and genotyping for common TPMT alleles.
Methods: We conducted a total of 32 genotyping assays in patients treated with azathioprine, who were referred to the Clinical Pharmacology Department for therapeutic monitoring of azathioprine metabolites from 2021 to 2024. TPMT phenotyping was performed by measuring azathioprine metabolites (6-TGN and 6-MMP) in patients' red blood cells using HPLC method. TPMT genotyping was performed using next generation sequencing to detect the following nucleotide substitutions: c.238G>C, c.460G>A, c.719A>G and c.626-1G>A.
Results: Twenty-eight patients (87.5 %) were homozygous for the wild type. Four individuals (12.5 %) were TPMT deficient subjects and all carriers for TPMT *3C allele. No individual was carrier of the TPMT *2 or *4 allele. The overall concordance between genotyping and phenotyping in this population was 68.8 %.
Conclusions: Overall, 12.5 % of the Tunisian subjects were found to carry the TPMT *3C allele. However, detecting novel and rare TPMT alleles within a larger cohort essential for more accurate estimation of genotype-phenotype correlation in our population. Combining genotyping and phenotyping is likely represents the most effective approach to prevent life-threatening myelosuppression associated with thiopurines.
期刊介绍:
Drug Metabolism and Personalized Therapy (DMPT) is a peer-reviewed journal, and is abstracted/indexed in relevant major Abstracting Services. It provides up-to-date research articles, reviews and opinion papers in the wide field of drug metabolism research, covering established, new and potential drugs, environmentally toxic chemicals, the mechanisms by which drugs may interact with each other and with biological systems, and the pharmacological and toxicological consequences of these interactions and drug metabolism and excretion. Topics: drug metabolizing enzymes, pharmacogenetics and pharmacogenomics, biochemical pharmacology, molecular pathology, clinical pharmacology, pharmacokinetics and drug-drug interactions, immunopharmacology, neuropsychopharmacology.
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