Nervous and immune systems as targets for developmental effects of benzodiazepines. A review of recent studies.

M Schlumpf, R Parmar, A Schreiber, H R Ramseier, E Bütikofer, H Abriel, M Barth, T Rhyner, W Lichtensteiger
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Abstract

Prenatal exposure to benzodiazepines (BDZ) can cause behavioral dysfunctions both in humans and in experimental animals. In addition, prolonged impairment of cellular immune functions is found in rats after low dose BDZ exposure (e.g., diazepam 1.25 mg/kg/day) during part of fetal life [gestational days (GD) 14-20]. Analysis of diazepam and its metabolites in maternal and fetal tissues revealed that in this rat model the drug is no longer present at birth, which excludes direct effects of diazepam during the postnatal period. The main target of BDZ in brain, the GABAA receptor complex, is structurally and functionally heterogeneous. Besides alpha- and beta-subunits, gamma 2- or gamma 3-subunit should be coexpressed for a fully functional BDZ response. Signals of mRNAs encoding for alpha 1, beta 2 and gamma 2 are detected in fetal rat spinal cord and lower brainstem by GD 14 and reach telencephalic regions in later fetal life, reminiscent of BDZ receptor ontogeny. Regional subunit distribution differs from the adult brain, one interesting feature being a preponderance of gamma 2 mRNA throughout fetal life. Since subunit composition influences the sensitivity to BDZ, these data suggest that prenatal effects of BDZ depend upon regional subunit compositions present at different developmental stages. The delayed depression of cellular immune responses in prenatally BDZ-exposed rat offspring during the first 2 postnatal months is accompanied by various changes in immune cell biology. Binding characteristics of the peripheral (omega 3) type BDZ receptor are altered until adulthood (8 weeks). Membranes of spleen cell preparations containing mainly lymphocytes exhibit a decrease of affinity for the peripheral ligand [3H]PK11195, splenic macrophage preparations a decrease of maximal binding capacity. Various defects in cytokine production by macrophages and T lymphocytes were observed: Mitogen-stimulated release of macrophage-derived tumor necrosis factor-alpha (TNF-alpha) and of the T cell-derived interleukin-2 (IL-2) was drastically reduced at 2 and 4 weeks of life and recovered in young adulthood, exhibiting the same time course of depression as lymphocyte proliferation in response to immune stimuli. Interleukin-6 (IL-6) release remained diminished until adulthood. In female offspring, additional alterations were found in splenic noradrenaline turnover after immune stimulation. The mechanisms underlying the breakdown of the cytokine network in prenatally diazepam-exposed offspring, and the long-term consequences are as yet unknown.

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神经和免疫系统是苯二氮卓类药物对发育影响的靶点。最近的研究综述。
产前暴露于苯二氮卓类药物(BDZ)可导致人类和实验动物的行为功能障碍。此外,在部分胎儿期[孕日(GD) 14-20]中,大鼠暴露于低剂量BDZ(如地西泮1.25 mg/kg/天)后,发现细胞免疫功能的长期损害。对地西泮及其在母体和胎儿组织中的代谢物的分析显示,在该大鼠模型中,该药物在出生时不再存在,这排除了地西泮在出生后的直接作用。脑内BDZ的主要靶点GABAA受体复合物在结构和功能上是不均匀的。除了α -亚基和β -亚基外,γ - 2或γ -亚基应该共同表达,以实现完全功能的BDZ反应。编码α 1、β 2和γ 2的mrna通过GD - 14在胎鼠脊髓和下脑干中检测到,并在胎儿后期到达远脑区,这与BDZ受体的个体发生有关。区域亚基分布不同于成人大脑,一个有趣的特征是在胎儿生命中伽马2 mRNA的优势。由于亚基组成影响对BDZ的敏感性,这些数据表明,BDZ的产前影响取决于不同发育阶段存在的区域亚基组成。产前暴露于bdz的大鼠子代在出生后2个月内细胞免疫应答的迟发性抑制伴随着免疫细胞生物学的各种变化。外周(欧米伽3)型BDZ受体的结合特性直到成年(8周)才发生改变。以淋巴细胞为主的脾细胞制剂的膜对外周配体[3H]PK11195的亲和力降低,脾巨噬细胞制剂的最大结合能力降低。观察到巨噬细胞和T淋巴细胞产生细胞因子的各种缺陷:有丝分裂原刺激的巨噬细胞来源的肿瘤坏死因子- α (tnf - α)和T细胞来源的白细胞介素-2 (IL-2)的释放在出生后2周和4周时急剧减少,并在青年期恢复,表现出与免疫刺激下淋巴细胞增殖相同的抑郁时间过程。白介素-6 (IL-6)的释放一直减少到成年。在雌性后代中,免疫刺激后脾脏去甲肾上腺素的转换也发生了额外的变化。在产前暴露于地西泮的后代中,细胞因子网络破坏的机制及其长期后果尚不清楚。
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