Brauer Philip R, Rosenquist Thomas H
Department of Biomedical Sciences, Creighton University School of Medicine, Omaha, Nebraska 68178, USA.
Dev Dyn. 2002 Jun;224(2):222-30. doi: 10.1002/dvdy.10105.
A positive correlation between elevated maternal homocysteine (Hcys) and an increased risk of neural tube, craniofacial, and cardiac defects is well known. Studies suggest Hcys perturbs neural crest (NC) development and may involve N-methyl-D-aspartate (NMDA) receptors (Rosenquist et al., 1999). However, there is no direct evidence that Hcys alters NC cell behavior. Here, we evaluated the effect of Hcys on cardiac NC cell migratory behavior in vitro. Neural tube segments from chick embryos treated in ovo with or without Hcys were placed in culture and the migratory behavior of emigrating NC cells was monitored. Hcys significantly increased in vitro NC cell motility at all embryonic stages examined. NC cell surface area and perimeter were also increased. However, the relative distance NC cells migrated from their original starting point only increased in NC cells treated in ovo at stage 6 or at the time neural tube segments were cultured. Cysteine had no effect. NMDA mimicked Hcys' effect on NC motility and migration distance but had no effect on cell area or perimeter. The noncompetitive inhibitor of NMDA receptors, MK801+, significantly inhibited NC cell motility, reduced migration distance, and also blocked the effects of NMDA and Hcys on NC motility and migratory distance in vitro. A monoclonal antibody directed against the NMDA receptor immunostained NC cells in vitro and, in western blots, bound a single protein with the appropriate molecular weight for the NMDA receptor in NC cell lysates. These data are consistent with the hypothesis that a Hcys-sensitive NMDA-like receptor is expressed by early emigrating NC cells or their precursors, which is important in mediating their migratory behavior. Perturbation of this receptor may be related to some of the teratogenic effects observed with elevated Hcys.
众所周知,母体同型半胱氨酸(Hcys)水平升高与神经管、颅面及心脏缺陷风险增加之间存在正相关。研究表明,Hcys会干扰神经嵴(NC)的发育,且可能涉及N-甲基-D-天冬氨酸(NMDA)受体(Rosenquist等人,1999年)。然而,尚无直接证据表明Hcys会改变NC细胞行为。在此,我们评估了Hcys对体外心脏NC细胞迁移行为的影响。将在鸡胚中经Hcys处理或未处理的神经管节段进行培养,并监测迁出的NC细胞的迁移行为。在所有检测的胚胎阶段,Hcys均显著增加了体外NC细胞的运动能力。NC细胞的表面积和周长也有所增加。然而,NC细胞从其原始起点迁移的相对距离仅在第6阶段或神经管节段培养时在鸡胚中经处理的NC细胞中增加。半胱氨酸没有影响。NMDA模拟了Hcys对NC运动能力和迁移距离的影响,但对细胞面积或周长没有影响。NMDA受体的非竞争性抑制剂MK801 +显著抑制了NC细胞的运动能力,缩短了迁移距离,并且在体外也阻断了NMDA和Hcys对NC运动能力和迁移距离的影响。一种针对NMDA受体的单克隆抗体在体外对NC细胞进行了免疫染色,并且在蛋白质印迹中,与NC细胞裂解物中NMDA受体分子量合适的单一蛋白质结合。这些数据与以下假设一致:早期迁出的NC细胞或其前体表达对Hcys敏感的类NMDA受体,这在介导它们的迁移行为中很重要。该受体的扰动可能与Hcys水平升高所观察到的一些致畸作用有关。
