抗癫痫药物诱导的新生大鼠发育性细胞死亡不受缺氧史的影响。
Anti-seizure medication-induced developmental cell death in neonatal rats is unaltered by history of hypoxia.
机构信息
Department of Pharmacology & Physiology, Georgetown University, Washington, DC, USA.
Department of Pharmacology & Physiology, Georgetown University, Washington, DC, USA; Department of Neuroscience, Georgetown University, Washington, DC, USA; Interdisciplinary Program in Neuroscience, Georgetown University, Washington, DC, USA.
出版信息
Epilepsy Res. 2024 Mar;201:107318. doi: 10.1016/j.eplepsyres.2024.107318. Epub 2024 Feb 4.
BACKGROUND
Many anti-seizure medications (ASMs) trigger neuronal cell death when administered during a confined period of early life in rodents. Prototypical ASMs used to treat early-life seizures such as phenobarbital induce this effect, whereas levetiracetam does not. However, most prior studies have examined the effect of ASMs in naïve animals, and the degree to which underlying brain injury interacts with these drugs to modify cell death is poorly studied. Moreover, the degree to which drug-induced neuronal cell death differs as a function of sex is unknown.
METHODS
We treated postnatal day 7 Sprague Dawley rat pups with vehicle, phenobarbital (75 mg/kg) or levetiracetam (200 mg/kg). Separate groups of pups were pre-exposed to either normoxia or graded global hypoxia. Separate groups of males and females were used. Twenty-four hours after drug treatment, brains were collected and processed for markers of cell death.
RESULTS
Consistent with prior studies, phenobarbital, but not levetiracetam, increased cell death in cortical regions, basal ganglia, hippocampus, septum, and lateral thalamus. Hypoxia did not modify basal levels of cell death. Females - collapsed across treatment and hypoxia status, displayed a small but significant increase in cell death as compared to males in the cingulate cortex, somatosensory cortex, and the CA1 and CA3 hippocampus; these effects were not modulated by hypoxia or drug treatment.
CONCLUSION
We found that a history of graded global hypoxia does not alter the neurotoxic profile of phenobarbital. Levetiracetam, which does not induce cell death in normal developing animals, maintained a benign profile on the background of neonatal hypoxia. We found a sex-based difference, as female animals showed elevated levels of cell death across all treatment conditions. Together, these data address several long-standing gaps in our understanding of the neurotoxic profile of antiseizure medications during early postnatal development.
背景
许多抗癫痫药物(ASMs)在啮齿动物生命早期的有限时间内给药时会引发神经元细胞死亡。用于治疗早期癫痫发作的典型 ASMs ,如苯巴比妥,会产生这种作用,而左乙拉西坦则不会。然而,大多数先前的研究都检查了 ASMs 在未处理动物中的作用,以及潜在的脑损伤与这些药物相互作用以改变细胞死亡的程度研究甚少。此外,药物诱导的神经元细胞死亡随性别而变化的程度尚不清楚。
方法
我们用载体、苯巴比妥(75mg/kg)或左乙拉西坦(200mg/kg)处理出生后 7 天的 Sprague Dawley 幼鼠。将单独的幼鼠组预暴露于常氧或分级全缺氧环境中。使用了雄性和雌性的单独分组。药物处理 24 小时后,收集大脑并进行细胞死亡标志物处理。
结果
与先前的研究一致,苯巴比妥而非左乙拉西坦增加了皮质区、基底节、海马、隔核和外侧丘脑的细胞死亡。缺氧不改变细胞死亡的基础水平。与雄性相比,雌性 - 跨越处理和缺氧状态,在扣带回皮质、体感皮质以及 CA1 和 CA3 海马体中的细胞死亡略有增加;这些效应不受缺氧或药物处理的调节。
结论
我们发现,分级全缺氧的历史并不会改变苯巴比妥的神经毒性特征。在新生期缺氧的背景下,不会在正常发育的动物中引起细胞死亡的左乙拉西坦保持良性特征。我们发现了性别差异,因为雌性动物在所有治疗条件下的细胞死亡水平都升高。总的来说,这些数据解决了我们对早期产后发育期间抗癫痫药物神经毒性特征的理解中的几个长期存在的差距。
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