Zhou Feng C, Fang Yuan, Goodlett Charles
Department of Anatomy and Cell Biology, Indiana University School of Medicine, 635 Barnhill Drive, Indianapolis, IN 46202, USA.
Alcohol Clin Exp Res. 2008 Aug;32(8):1361-71. doi: 10.1111/j.1530-0277.2008.00722.x. Epub 2008 Jun 28.
Prenatal alcohol exposure via maternal liquid diet consumption by C57BL/6 (B6) mice causes conspicuous midline neural tube deficit (dysraphia) and disruption of genesis and development of serotonin (5-HT) neurons in the raphe nuclei, together with brain growth retardation. The current study tested the hypothesis that concurrent treatment with either an activity-dependent neurotrophic factor (ADNF) agonist peptide [SALLRSIPA, (SAL)] or an activity-dependent neurotrophic protein (ADNP) agonist peptide [NAPVSIPQ, (NAP)] would protect against these alcohol-induced deficits in brain development.
Timed-pregnant B6 dams consumed alcohol from embryonic day 7 (E7, before the onset of neurulation) until E15. Fetuses were obtained on E15 and brain sections processed for 5-HT immunocytochemistry, for evaluation of morphologic development of the brainstem raphe and its 5-HT neurons. Additional groups were treated either with SAL or NAP daily from E7 to E15 to assess the potential protective effects of these peptides. Measures of incomplete occlusion of the ventral canal and the frequency and extent of the openings in the rhombencephalon were obtained to assess fetal dysraphia. Counts of 5-HT-immunostained neurons were also obtained in the rostral and caudal raphe.
Prenatal alcohol exposure resulted in abnormal openings along the midline and delayed closure of ventral canal in the brainstem. This dysraphia was associated with reductions in the number of 5-HT neurons both in the rostral raphe nuclei (that gives rise to ascending 5-HT projections) and in the caudal raphe (that gives rise to the descending 5-HT projections). Concurrent treatment of the alcohol-consuming dams with SAL prevented dysraphia and protected against the alcohol-induced reductions in 5-HT neurons in both the rostral and caudal raphe. NAP was less effective in protecting against dysraphia and did not protect against 5-HT loss in the rostral raphe, but did protect against loss in the caudal raphe.
These findings further support the potential usefulness of these peptides for therapeutic interventions in pregnancies at risk for alcohol-induced developmental deficits. Notably, the ascending 5-HT projections of the rostral raphe have profound effects in regulating forebrain development and function, and the descending 5-HT projections of the caudal raphe are critical for regulating respiration. Protection of the rostral 5-HT-system may help prevent structural and functional deficits linked to abnormal forebrain development, and protection of the caudal systems may also reduce the increased risk for sudden infant death syndrome associated with prenatal alcohol exposure.
C57BL/6(B6)小鼠通过母体液体饮食摄入酒精进行产前酒精暴露,会导致明显的中线神经管缺陷(神经管闭合不全)以及中缝核中血清素(5-HT)神经元的发生和发育受到破坏,同时伴有脑发育迟缓。本研究检验了以下假设:同时使用活性依赖神经营养因子(ADNF)激动剂肽[SALLRSIPA,(SAL)]或活性依赖神经营养蛋白(ADNP)激动剂肽[NAPVSIPQ,(NAP)]进行治疗,可预防这些酒精诱导的脑发育缺陷。
定时怀孕的B6母鼠从胚胎第7天(E7,神经胚形成开始前)至E15摄入酒精。在E15获取胎儿,并对脑切片进行5-HT免疫细胞化学处理,以评估脑干中缝及其5-HT神经元的形态发育。另外的组从E7至E15每天用SAL或NAP进行治疗,以评估这些肽的潜在保护作用。通过测量腹侧管未完全闭合的情况以及后脑开口的频率和范围来评估胎儿神经管闭合不全。还对中缝头端和尾端5-HT免疫染色的神经元进行计数。
产前酒精暴露导致脑干中线出现异常开口以及腹侧管闭合延迟。这种神经管闭合不全与中缝头端核(产生5-HT上行投射)和中缝尾端(产生5-HT下行投射)中5-HT神经元数量减少有关。用SAL对摄入酒精的母鼠进行联合治疗可预防神经管闭合不全,并防止酒精诱导的中缝头端和尾端5-HT神经元减少。NAP在预防神经管闭合不全方面效果较差,不能预防中缝头端的5-HT丢失,但能预防中缝尾端的5-HT丢失。
这些发现进一步支持了这些肽在对有酒精诱导发育缺陷风险的妊娠进行治疗干预方面的潜在用途。值得注意的是,中缝头端的5-HT上行投射在调节前脑发育和功能方面具有深远影响,而中缝尾端的5-HT下行投射对调节呼吸至关重要。保护中缝头端的5-HT系统可能有助于预防与前脑发育异常相关的结构和功能缺陷,保护中缝尾端系统也可能降低与产前酒精暴露相关的婴儿猝死综合征的增加风险。
