Erasmus Medical Center-Daniel den Hood Cancer Center, University Medical Center, Rotterdam, The Netherlands.
J Clin Oncol. 2011 Aug 20;29(24):3240-6. doi: 10.1200/JCO.2010.32.9839. Epub 2011 Jul 18.
Tamoxifen, a widely used agent for the prevention and treatment of breast cancer, is mainly metabolized by CYP2D6 and CYP3A to form its most abundant active metabolite, endoxifen. Interpatient variability in toxicity and efficacy of tamoxifen is substantial. Contradictory results on the value of CYP2D6 genotyping to reduce the variable efficacy have been reported. In this pharmacokinetic study, we investigated the value of dextromethorphan, a known probe drug for both CYP2D6 and CYP3A enzymatic activity, as a potential phenotyping probe for tamoxifen pharmacokinetics.
In this prospective study, 40 women using tamoxifen for invasive breast cancer received a single dose of dextromethorphan 2 hours after tamoxifen intake. Dextromethorphan, tamoxifen, and their respective metabolites were quantified. Exposure parameters of all compounds were estimated, log transformed, and subsequently correlated.
A strong and highly significant correlation (r = -0.72; P < .001) was found between the exposures of dextromethorphan (0 to 6 hours) and endoxifen (0 to 24 hours). Also, the area under the plasma concentration-time curve of dextromethorphan (0 to 6 hours) and daily trough endoxifen concentration was strongly correlated (r = -0.70; P < .001). In a single patient using the potent CYP2D6 inhibitor paroxetine, the low endoxifen concentration was accurately predicted by dextromethorphan exposure.
Dextromethorphan exposure after a single administration adequately predicted endoxifen exposure in individual patients with breast cancer taking tamoxifen. This test could contribute to the personalization and optimization of tamoxifen treatment, but it needs additional validation and simplification before being applicable in future dosing strategies.
他莫昔芬是一种广泛用于预防和治疗乳腺癌的药物,主要通过 CYP2D6 和 CYP3A 代谢生成其最丰富的活性代谢物,依西美坦。他莫昔芬的毒性和疗效在患者间存在较大差异。CYP2D6 基因分型对降低疗效的可变疗效的价值存在矛盾的结果。在这项药代动力学研究中,我们研究了右美沙芬作为 CYP2D6 和 CYP3A 酶活性的已知探针药物作为他莫昔芬药代动力学潜在表型探针的价值。
在这项前瞻性研究中,40 名使用他莫昔芬治疗浸润性乳腺癌的女性在他莫昔芬摄入后 2 小时接受单剂量右美沙芬。定量检测右美沙芬、他莫昔芬及其各自的代谢物。所有化合物的暴露参数均经对数转换后进行相关性分析。
右美沙芬(0 至 6 小时)和依西美坦(0 至 24 小时)的暴露量之间存在很强的高度显著相关性(r = -0.72;P <.001)。右美沙芬(0 至 6 小时)的 AUC 和每日谷浓度依西美坦之间也存在很强的相关性(r = -0.70;P <.001)。在一名使用强 CYP2D6 抑制剂帕罗西汀的患者中,右美沙芬的暴露量准确预测了低依西美坦浓度。
单次给予右美沙芬后,可充分预测接受他莫昔芬治疗的乳腺癌患者的依西美坦暴露量。该试验可有助于实现他莫昔芬治疗的个体化和优化,但在未来的给药策略中应用前还需要进一步验证和简化。
