Pharmacogenetics of Immunosuppressant Polymorphism of CYP3A5 in Renal Transplant Recipients

Abstract The tacrolimus is metabolized primarily by CYP3A5, a member of the single nucleotide polymorphism family. It shows cytochrome P450 (SNP) in intron 3, which consists of a change of base, G for A, producing a stop codon. The result is a nonfunctional protein (allele *3). Allele *1 is the wild...

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Veröffentlicht in:Transplantation proceedings 2010, Vol.42 (1), p.257-259
Hauptverfasser: Larriba, J, Imperiali, N, Groppa, R, Giordani, C, Algranatti, S, Redal, M.A
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Sprache:eng
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Zusammenfassung:Abstract The tacrolimus is metabolized primarily by CYP3A5, a member of the single nucleotide polymorphism family. It shows cytochrome P450 (SNP) in intron 3, which consists of a change of base, G for A, producing a stop codon. The result is a nonfunctional protein (allele *3). Allele *1 is the wild type. The patients that show the allelic variant *3 in homozygosis (G/G) are slow metabolizers of the immunosuppressant, increasing its concentration in blood. In contrast, heterozygote A/G alleles *1/*3 are intermediate metabolizers, whereas those of allele *1 in homozygosis (A/A) are normal metabolizers. The aim of this study was to determine CYP 3A5 polymorphism among adult renal transplant recipients and the general Argentinean population. We analyzed 21 recipients and 36 healthy controls. All subjects gave written informed consent approved by the local committee. To determine the polymorphism, we extracted DNA from peripheral blood and used polymerase chain reaction (PCR) to amplify intron 3 of the CYP 3A5. The presence of variant was confirmed by direct sequencing. Among the controls the CYP3A5 genotype *3/*3 (G/G) was detected in 32 individuals, 4 showed *1/*3 (A/G), and none had *1/*1 (A/A); among the recipients, the results were as follows: 18, 2, and 1, respectively. The frequencies of polymorphism in both groups were similar, although they differred from those published for other populations. These results are the basis for the development of a pharmacogenomic program applied to organ transplantation. The genetic polymorphisms can determine responses to drugs. The molecular diagnosis must be transferred to clinical practice so as to guide selection of medicine and drug doses to be optimal for each individual.
ISSN:0041-1345
1873-2623
DOI:10.1016/j.transproceed.2009.11.028