Willcocks Isabella R, Legge Sophie E, Nalmpanti Mariana, Mazzeo Lucy, King Adrian, Jansen John, Helthuis Marinka, Owen Michael J, O'Donovan Michael C, Walters James T R, Pardiñas Antonio F
MRC Centre for Neuropsychiatric Genetics and Genomics, Division of Psychological Medicine and Clinical Neurosciences, School of Medicine, Cardiff University, Cardiff, United Kingdom.
Hafan y Coed Mental Health Unit, University Hospital of Llandough, Cardiff, United Kingdom.
Front Pharmacol. 2021 Apr 16;12:658734. doi: 10.3389/fphar.2021.658734. eCollection 2021.
Up to one-third of those with schizophrenia fail to respond to standard antipsychotics and are considered to have treatment-resistant schizophrenia, a condition for which clozapine is the only evidence-based medication. While up to 60% of treated individuals obtain therapeutic benefits from clozapine, it is currently underprescribed worldwide, partly because of concerns related to its broad adverse effect profile. In particular, the potential effects of clozapine on the immune system have gained relevance after a recent study showed that drug plasma concentrations were inversely correlated with neutrophil counts in individuals routinely undergoing treatment. Seeking to investigate this relationship in more detail, we extracted metabolic, immune, and genetic data from a UK cohort of long-term clozapine users linked to a clozapine monitoring service, CLOZUK2 ( = 208). Whilst a correlation analysis was compatible with the original results, a multiple linear regression accounting for dose and other confounding factors additionally allowed us to estimate the decrease in absolute neutrophil counts to approximately 141 cells/mm for every 0.1 mg/L increase in clozapine concentration. However, this association was attenuated after controlling for the metabolic ratio between clozapine and its main metabolite, norclozapine, which was itself negatively associated with neutrophil concentrations. Further analyses revealed that these relationships are likely moderated by genetic factors, as three pharmacogenomic SNPs previously associated to norclozapine plasma concentrations and the metabolic ratio (rs61750900, rs2011425 and rs1126545) were shown to be independently associated with a variation in neutrophil counts of about 400 cells/mm per effect allele. Such results are compatible with an effect of norclozapine, but not necessarily clozapine, on immune cell counts, and highlight the need for further investigations into the potential role of genetic determinants of clozapine pharmacokinetics in the occurrence of adverse effects during treatment.
高达三分之一的精神分裂症患者对标准抗精神病药物没有反应,被认为患有难治性精神分裂症,而氯氮平是治疗这种疾病唯一有循证依据的药物。虽然高达60%接受治疗的患者从氯氮平中获得了治疗益处,但目前它在全球范围内的处方量不足,部分原因是担心其广泛的不良反应。特别是,在最近一项研究表明接受常规治疗的个体中药物血浆浓度与中性粒细胞计数呈负相关后,氯氮平对免疫系统的潜在影响受到了关注。为了更详细地研究这种关系,我们从与氯氮平监测服务CLOZUK2相关联的英国长期氯氮平使用者队列中提取了代谢、免疫和基因数据(n = 208)。虽然相关性分析与原始结果相符,但考虑剂量和其他混杂因素的多元线性回归还使我们能够估计,氯氮平浓度每增加0.1mg/L,绝对中性粒细胞计数将减少约141个细胞/mm³。然而,在控制氯氮平与其主要代谢物去甲氯氮平之间的代谢比后,这种关联减弱了,而去甲氯氮平本身与中性粒细胞浓度呈负相关。进一步分析表明,这些关系可能受到遗传因素的调节,因为先前与去甲氯氮平血浆浓度和代谢比相关的三个药物基因组单核苷酸多态性(rs61750900、rs2011425和rs1126545)显示,每个效应等位基因与中性粒细胞计数变化约400个细胞/mm³独立相关。这些结果与去甲氯氮平而非氯氮平对免疫细胞计数的影响相符,并突出了进一步研究氯氮平药代动力学的遗传决定因素在治疗期间不良反应发生中的潜在作用的必要性。