Gelineau-van Waes J, van Waes M A, Hallgren J, Hulen J, Bredehoeft M, Ashley-Koch A E, Krupp D, Gregory S G, Stessman H A
Department of Pharmacology and Neuroscience, School of Medicine, Creighton University, Omaha, NE, United States.
Independent Researcher, Omaha, NE, United States.
Front Cell Dev Biol. 2023 Jun 12;11:1175917. doi: 10.3389/fcell.2023.1175917. eCollection 2023.
In 2018, data from a surveillance study in Botswana evaluating adverse birth outcomes raised concerns that women on antiretroviral therapy (ART) containing dolutegravir (DTG) may be at increased risk for neural tube defects (NTDs). The mechanism of action for DTG involves chelation of Mg ions in the active site of the viral integrase. Plasma Mg homeostasis is maintained primarily through dietary intake and reabsorption in the kidneys. Inadequate dietary Mg intake over several months results in slow depletion of plasma Mg and chronic latent hypomagnesemia, a condition prevalent in women of reproductive age worldwide. Mg is critical for normal embryonic development and neural tube closure. We hypothesized that DTG therapy might slowly deplete plasma Mg and reduce the amount available to the embryo, and that mice with pre-existing hypomagnesemia due to genetic variation and/or dietary Mg insufficiency at the time of conception and initiation of DTG treatment would be at increased risk for NTDs. We used two different approaches to test our hypothesis: 1) we selected mouse strains that had inherently different basal plasma Mg levels and 2) placed mice on diets with different concentrations of Mg. Plasma and urine Mg were determined prior to timed mating. Pregnant mice were treated daily with vehicle or DTG beginning on the day of conception and embryos examined for NTDs on gestational day 9.5. Plasma DTG was measured for pharmacokinetic analysis. Our results demonstrate that hypomagnesemia prior to conception, due to genetic variation and/or insufficient dietary Mg intake, increases the risk for NTDs in mice exposed to DTG. We also analyzed whole-exome sequencing data from inbred mouse strains and identified 9 predicted deleterious missense variants in Fam111a that were unique to the LM/Bc strain. Human FAM111A variants are associated with hypomagnesemia and renal Mg wasting. The LM/Bc strain exhibits this same phenotype and was the strain most susceptible to DTG-NTDs. Our results suggest that monitoring plasma Mg levels in patients on ART regimens that include DTG, identifying other risk factors that impact Mg homeostasis, and correcting deficiencies in this micronutrient might provide an effective strategy for mitigating NTD risk.
2018年,博茨瓦纳一项评估不良出生结局的监测研究数据引发了人们的担忧,即接受含多替拉韦(DTG)的抗逆转录病毒疗法(ART)的女性可能患神经管缺陷(NTDs)的风险增加。DTG的作用机制涉及病毒整合酶活性位点中镁离子的螯合。血浆镁稳态主要通过饮食摄入和肾脏重吸收来维持。数月饮食中镁摄入不足会导致血浆镁缓慢消耗和慢性潜在低镁血症,这是全球育龄女性中普遍存在的一种情况。镁对正常胚胎发育和神经管闭合至关重要。我们假设DTG疗法可能会缓慢消耗血浆镁并减少胚胎可利用的镁量,并且在受孕和开始DTG治疗时因遗传变异和/或饮食中镁不足而预先存在低镁血症的小鼠患NTDs的风险会增加。我们使用了两种不同的方法来检验我们的假设:1)我们选择了具有固有不同基础血浆镁水平的小鼠品系,2)给小鼠喂食不同浓度镁的饮食。在定时交配前测定血浆和尿液中的镁。从受孕当天开始,每天给怀孕小鼠注射赋形剂或DTG,并在妊娠第9.5天检查胚胎是否有NTDs。测量血浆DTG进行药代动力学分析。我们的结果表明,受孕前由于遗传变异和/或饮食中镁摄入不足导致的低镁血症会增加接触DTG的小鼠患NTDs的风险。我们还分析了近交小鼠品系的全外显子测序数据,并在Fam111a中鉴定出9个预测的有害错义变体,这些变体是LM/Bc品系所特有的。人类FAM111A变体与低镁血症和肾脏镁流失有关。LM/Bc品系表现出相同的表型,并且是最易患DTG-NTDs的品系。我们的结果表明,监测接受含DTG的ART方案治疗的患者的血浆镁水平,识别影响镁稳态的其他风险因素,并纠正这种微量营养素的缺乏,可能为降低NTD风险提供一种有效的策略。
