Bassanini Stefania, Hallene Kerri, Battaglia Giorgio, Finardi Adele, Santaguida Stefano, Cipolla Marilyn, Janigro Damir
Department of Cerebrovascular Research, Cleveland, OH, USA.
Neurobiol Dis. 2007 May;26(2):481-95. doi: 10.1016/j.nbd.2007.02.008. Epub 2007 Mar 3.
One of the most common causes of neurological disabilities are malformations of cortical development (MCD). A useful animal model of MCD consists of prenatal exposure to methylazoxymethanol (MAM), resulting in a postnatal phenotype characterized by cytological aberrations reminiscent of human MCD. Although postnatal effects of MAM are likely a consequence of prenatal events, little is known on how the developing brain reacts to MAM. General assumption is the effects of prenatally administered MAM are short lived (24 h) and neuroblast-specific. MAM persisted for several days after exposure in utero in both maternal serum and fetal brain, but at levels lower than predicted by a neurotoxic action. MAM levels and time course were consistent with a different mechanism of indirect neuronal toxicity. The most prominent acute effects of MAM were cortical swelling associated with mild cortical disorganization and neurodegeneration occurring in absence of massive neuronal cell death. Delayed or aborted vasculogenesis was demonstrated by MAM's ability to hinder vessel formation. In vitro, MAM reduced synthesis and release of VEGF by endothelial cells. Decreased expression of VEGF, AQP1, and lectin-B was consistent with a vascular target in prenatal brain. The effects of MAM on cerebral blood vessels persisted postnatally, as indicated by capillary hypodensity in heterotopic areas of adult rat brain. In conclusion, these results show that MAM does not act only as a neurotoxin per se, but may additionally cause a short-lived toxic effect secondary to cerebrovascular dysfunction, possibly due to a direct anti-angiogenic effect of MAM itself.
皮质发育畸形(MCD)是神经功能障碍最常见的病因之一。一种有用的MCD动物模型是产前暴露于甲基氧化偶氮甲醇(MAM),导致出生后出现一种细胞学异常的表型,使人联想到人类MCD。尽管MAM的产后影响可能是产前事件的结果,但对于发育中的大脑如何对MAM作出反应却知之甚少。一般认为产前给予MAM的影响是短暂的(24小时)且具有神经母细胞特异性。在子宫内暴露后,MAM在母体血清和胎儿脑中持续存在数天,但水平低于神经毒性作用所预测的水平。MAM的水平和时间进程与间接神经元毒性的不同机制一致。MAM最显著的急性影响是皮质肿胀,伴有轻度皮质结构紊乱和在无大量神经元细胞死亡情况下发生的神经变性。MAM阻碍血管形成的能力证明了血管生成延迟或中止。在体外,MAM降低了内皮细胞VEGF的合成和释放。VEGF、AQP1和凝集素-B表达的降低与产前脑内的血管靶点一致。如成年大鼠脑异位区域毛细血管密度降低所示,MAM对脑血管的影响在出生后持续存在。总之,这些结果表明,MAM本身不仅作为一种神经毒素起作用,而且可能还会继发于脑血管功能障碍而引起短暂的毒性作用,这可能是由于MAM本身具有直接的抗血管生成作用。