Applications of CYP450 Testing in the Clinical Setting

Samer, Caroline Flora; Lorenzini, Kuntheavy Ing; Rollason, Victoria; Daali, Youssef; Desmeules, Jules Alexandre

doi:10.1007/s40291-013-0028-5

Cited by 302 publications

(260 citation statements)

References 166 publications

(189 reference statements)

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“…Examples of therapeutic drugs for which phenotyping using alternative strategies may be applied are the CYP2D6 substrates imipramine, nortriptyline (tricyclic antidepressants), haloperidol, risperidone (antipsychotics), codeine and tramadol (opioid analgesics), the CYP2C19 substrates omeprazole, lansoprazole (proton-pump inhibitors) and clopidogrel (platelet aggregation inhibitor), the CYP1A2 substrates clozapine and olanzapine (antipsychotics) and the CYP2C9 substrate warfarin (anticoagulant) [3,6,8]. For several of these, it remains to be fully established if and to what extent phenotyping (and resulting dose adaptation) indeed results in a better clinical outcome.…”

Section: Resultsmentioning

confidence: 99%

“…Likewise, when metabolization results in inactivation of a parent drug, higher than normal enzyme activity may cause standard drug therapy to fail. In these cases, increasing the drug dose is needed to obtain the same level of efficacy [3,6].…”

Section: Introductionmentioning

confidence: 99%

“…Some CYP450 enzymes, in particular CYP2D6, CYP2C19 and CYP2C9, are encoded by highly polymorphic genes and distinct subpopulations can be identified based on the genetic signature [4,7,8]. For many drugs metabolized by these enzymes, clinical outcome could be correlated with a certain genotype and genotyping a patient has proven to be a reliable strategy to assess the metabolic phenotype [3,6,8]. This approach holds the advantages that is has to be performed only once for each individual and that intake of test drugs is not required.…”

Section: Introductionmentioning

confidence: 99%

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Alternative Sampling Strategies for Cytochrome P450 Phenotyping

2015

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Interindividual variability in the expression and function of drug metabolizing cytochrome P (CYP) 450 enzymes, determined by a combination of genetic, non-genetic and environmental parameters, is a major source of variable drug response. Phenotyping by administration of a selective enzyme substrate, followed by the determination of a specific phenotyping metric, is an appropriate approach to assess the in vivo activity of CYP450 enzymes, as it takes into account all influencing factors. A phenotyping protocol should be as simple and convenient as possible. Typically, phenotyping metrics are determined in traditional matrices, such as blood, plasma or urine. Several sampling strategies have been proposed as an alternative for these traditional sampling techniques.In this review, we provide a comprehensive overview of available methods using dried blood spots, hair, oral fluid, exhaled breath and sweat for in vivo CYP450 phenotyping. We discuss the relation between phenotyping metrics measured in these samples and those in conventional matrices, along with the advantages and limitations of the alternative sampling techniques. Reliable phenotyping procedures for several clinically relevant CYP450 enzymes, including CYP1A2, CYP2C19 and CYP2D6, are currently available for oral fluid, breath or dried blood spots, while additional studies are needed for other CYP450 isoforms, such as CYP3A4. The role of hair analysis for this purpose remains to be established. Being non-or minimally invasive, these sampling strategies provide convenient and patient-friendly alternatives for classical phenotyping procedures, which may contribute to the implementation of CYP450 phenotyping in clinical practice. 4 Key Points Phenotyping by administration of a selective probe drug, followed by determination of a specific phenotyping metric, allows to assess the in vivo enzyme activity of CYP450 enzymes, taking into account genetic, non-genetic and environmental influencing factors. In addition to classical sampling techniques, such as blood or urine collection, reliable phenotyping procedures for several clinically relevant CYP450 enzymes are currently available for oral fluid, breath and dried blood spots.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Alternative Sampling Strategies for Cytochrome P450 Phenotyping

2015

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“…The pro-drug, tamoxifen, is extensively metabolised by CYP2D6 into therapeutically-active moieties, 4-hydroxytamoxifen and endoxifen; their affinity for the oestrogenreceptors is ~100-fold greater than tamoxifen and their antioestrogenic potency in suppressing ER-dependent cell proliferation is 30-100-fold stronger than tamoxifen [6,9,[11][12][13][14][15].…”

Section: Metabolism Of Tamoxifenmentioning

confidence: 99%

“…Tamoxifen decreases the risk of relapse by half and the mortality rate by nearly a third in patients with ER (+) breast cancer which count for approximately 80% of all breast cancers [1][2][3]. While aromatase inhibitors are more effective for treating post-menopausal patients with ER (+) breast cancer, tamoxifen was approved by the FDA for metastatic breast cancer and as an alternative to aromatase inhibitors for the chemoprevention in post-menopausal women [4][5][6]. Hence, tamoxifen remains the gold standard for ER (+) breast cancer.…”

Section: Introductionmentioning

confidence: 99%

Does CYP2D6 Genotyping have a Role in Guiding Tamoxifen Therapy?

Mokbel¹,

Mokbel²

2017

Biochem Mol biol J

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Inter-individual variability to drug response is a major concern in the field of oncology. In the era of "targeted" therapy, optimal treatment outcomes can be achieved by more individualized initial dosing and/or alternative treatment according to the patient's genetic make-up. Although several genes are responsible for the interindividual variability in drug metabolism and response, the Cytochrome P450 enzymes are the most widely validated and clinically utilized. Pharmacogenetic testing of CYP2D6 alleles was the first FDA approved test due to its involvement in the metabolism of a wide range of drugs such as the anti-cancer drug tamoxifen (Nolvadex ® ), to which clinical response varies widely among patients.Identifying determinants and predictors of the variable response or non-response to tamoxifen can facilitate therapeutic dose measurement or even determine the choice of alternative agents (e.g. aromatase inhibitors). Several clinical trials have shown that genetic variants associated with slower metabolism of tamoxifen may lead to lower than expected blood levels of its pharmacologically active metabolites and thus shorter recurrence-free survival. CYP2D6 genotyping can be clinically useful for selecting adjuvant therapy, improving the clinical outcome of tamoxifen and potentially reducing overall costs of treatment. However, CYP2D6 phenotypebased recommendations for tamoxifen have not been developed and guidelines linking the CYP2D6 status to personalized oncologic care do not exist and therefore clinicians' uptake of the testing has remained very low. Large prospective randomized clinical trials are required to assess whether CYP2D6 genotype can robustly predict treatment outcome of tamoxifen and improve overall survival.

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Enzymes

2015

Human Drug Targets

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Applications of CYP450 Testing in the Clinical Setting

Cited by 302 publications

References 166 publications

Alternative Sampling Strategies for Cytochrome P450 Phenotyping

Alternative Sampling Strategies for Cytochrome P450 Phenotyping

Does CYP2D6 Genotyping have a Role in Guiding Tamoxifen Therapy?

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