Wang Jue, Sönnerborg Anders, Rane Anders, Josephson Filip, Lundgren Stefan, Ståhle Lars, Ingelman-Sundberg Magnus
Division of Molecular Toxicology, Institute of Environmental Medicine, Karolinska Institute, Stockholm.
Pharmacogenet Genomics. 2006 Mar;16(3):191-8. doi: 10.1097/01.fpc.0000189797.03845.90.
The non-nucleoside reverse transcriptase inhibitor efavirenz is mainly metabolised by the polymorphic cytochrome P450 enzyme CYP2B6. Genomic DNA from four subjects in a group of 51 patients being treated with efavirenz and having surprisingly high plasma concentrations were screened by direct sequencing for mutations in the CYP2B6 gene. Four exonic single nucleotide polymorphisms (SNPs), 516G > T, 714G > A, 785A > G and 983T > C, and eight intronic SNPs were identified. Haplotype analysis revealed that 983T > C was linked with 785A > G defining a novel allele, CYP2B616. This allele was present in totally five of the patients. The CYP2B6.16 cDNA was expressed in yeast and HEK293 cells and significantly less protein was formed compared to the wild-type cDNA, in both heterologous systems. By contrast, the catalytic activity of the enzyme variant was not different from the CYP2B6.1 enzyme, using bupropion as a probe substrate. The CYP2B616 allele was not found in Swedes, was present at 4% frequency among Turks, but was common among Africans. The steady-state level of efavirenz was significantly higher in the five carriers of CYP2B616, being of African origin, compared to the other patients. Higher efavirenz concentrations were also seen in carriers of 516G>T (CYP2B66 and CYP2B69). In conclusion, a novel CYP2B616 allele causing less expression of the corresponding enzyme was identified and found to influence the metabolism of efavirenz in vivo, a finding that is of potential impact for anti-HIV therapy in black populations.
非核苷类逆转录酶抑制剂依法韦仑主要由多态性细胞色素P450酶CYP2B6代谢。对51例接受依法韦仑治疗且血浆浓度出奇高的患者中的4例患者的基因组DNA进行直接测序,以筛查CYP2B6基因的突变。鉴定出4个外显子单核苷酸多态性(SNP),即516G>T、714G>A、785A>G和983T>C,以及8个内含子SNP。单倍型分析显示,983T>C与785A>G连锁,定义了一个新的等位基因CYP2B616。该等位基因在总共5例患者中存在。CYP2B6.16 cDNA在酵母和HEK293细胞中表达,与野生型cDNA相比,在两种异源系统中形成的蛋白质均明显减少。相比之下,使用安非他酮作为探针底物,该酶变体的催化活性与CYP2B6.1酶没有差异。在瑞典人中未发现CYP2B616等位基因,在土耳其人中的频率为4%,但在非洲人中很常见。与其他患者相比,5例CYP2B616携带者(均为非洲裔)中依法韦仑的稳态水平明显更高。在516G>T(CYP2B66和CYP2B69)携带者中也观察到较高的依法韦仑浓度。总之,鉴定出一种导致相应酶表达减少的新型CYP2B616等位基因,并发现其影响依法韦仑在体内的代谢,这一发现对黑人人群的抗HIV治疗具有潜在影响。
