A natural variant of the heme-binding signature (R441C) resulting in complete loss of function of CYP2D6.

A new variant allele CYP2D6*62 (g.4044C>T; R441C) of the drug-metabolizing cytochrome P450 (P450) CYP2D6 was identified in a person with reduced sparteine oxidation phenotype, which was unexpected based on a genetic CYP2D6*1A/*41 background. The recombinantly expressed variant protein had no activity toward propafenone as a result of missing heme incorporation.

A silent mutation (2939G>A, exon 6; CYP2D6*59) leading to impaired expression and function of CYP2D6.

We analyzed CYP2D6 in two individuals characterized by impaired sparteine oxidation (intermediate metabolizer phenotype) and genotype 2D62/4 (1661G>C; 2850C>T; 4180G>C) usually associated with normal function. Full genomic sequencing and haplotype analysis confirmed the previously identified silent mutation 2939G>A in exon 6 (former allele variant 2D62J, now termed 2D659), as well as an additional novel 2291G>A change in intron 4. Transient expression in Huh7 hepatoma cells of the entire CYP2D6 gene of constructs carrying either both or only the 2939G>A change resulted in about three-fold reduced levels of mRNA, immunoreactive 2D6 protein and propafenone hydroxylase activity.

Impaired expression of CYP2D6 in intermediate metabolizers carrying the *41 allele caused by the intronic SNP 2988G>A: evidence for modulation of splicing events.

We investigated the molecular basis for low expression and activity of CYP2D6 associated with the CYP2D6*41 allele in about 10-15% of Caucasians with intermediate metabolizer phenotype. With respect to two previously described polymorphisms in the promoter (-1584C>G) and in intron 6 (2988G>A; c.985+39G>A), the three most frequent functional alleles have the distinct haplotypes 2D6*1[CG], 2D6*2[GG] and 2D6*41[CA], respectively.

A novel intronic mutation, 2988G>A, with high predictivity for impaired function of cytochrome P450 2D6 in white subjects.

Background: Individuals with the cytochrome P450 (CYP) 2D6 intermediate metabolizer (IM) phenotype have low residual enzyme activity and compose about 10% to 15% of white populations. Their identification is clinically relevant but remains unsatisfactory because of incomplete characterization of the major allele involved, termed CYP2D6*41 (-1584C, R296C, S486T).

Methods: To search for novel mutations, resequencing of the entire CYP2D6 gene was performed in selected individuals.

Cytochrome P450 2D6: overview and update on pharmacology, genetics, biochemistry.

Of about one dozen human P450 s that catalyze biotransformations of xenobiotics, CYP2D6 is one of the more important ones based on the number of its drug substrates. It shows a very high degree of interindividual variability, which is primarily due to the extensive genetic polymorphism that influences expression and function. This so-called debrisoquine/sparteine oxidation polymorphism has been extensively studied in many different populations and over 80 alleles and allele variants have been described.