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在新生大鼠中,(+)-甲基苯丙胺比强迫游泳或隔离更能增加血浆中的皮质酮和大脑中的脑源性神经营养因子。

(+)-Methamphetamine increases corticosterone in plasma and BDNF in brain more than forced swim or isolation in neonatal rats.

作者信息

Grace Curtis E, Schaefer Tori L, Herring Nicole R, Skelton Matthew R, McCrea Anne E, Vorhees Charles V, Williams Michael T

机构信息

Division of Neurology, Cincinnati Children's Research Foundation, Cincinnati, Ohio 45229-3039, USA.

出版信息

Synapse. 2008 Feb;62(2):110-21. doi: 10.1002/syn.20470.

DOI:10.1002/syn.20470
PMID:17992688
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2744944/
Abstract

(+)-Methamphetamine (MA) administered on postnatal days (P) 11-15 (four times/day) results in increased corticosterone that overlaps the stress hyporesponsive period (SHRP; P2-14) and leads to later learning and memory deficits. Elevated corticosterone during the SHRP results in neurotrophin changes and long-term effects on learning. We determined whether two known stressors could mimic the effects of MA [10 (mg/kg)/dose] administration in neonatal rats. Stressors were four 15-min sessions of forced swim or isolation (confinement in forced swim tubes without water). Saline and weighed-only controls were included and all five treatments were represented within each litter. Corticosterone in plasma and brain-derived neurotrophic factor (BDNF) and nerve growth factor (NGF) in neostriatum and hippocampus were examined after one or four treatments on P11 or P15 (0.5, 1.75, 6.5, or 24 h after first dose). MA increased corticosterone and BDNF; forced swim and isolation also increased corticosterone, but to a lesser extent than MA, and neither stressor increased BDNF. NGF was unaffected by saline treatment, but there was a minor reduction in NGF in the forced swim group compared with the weighed-only group. The data show that MA is more potent at releasing corticosterone and increasing BDNF than short-term, repeated episodes of forced swim or isolation. The possible relationship between these changes and the long-term cognitive effects of developmental MA administration are discussed.

摘要

在出生后第11 - 15天(每天4次)给予(+)-甲基苯丙胺(MA)会导致皮质酮水平升高,这与应激低反应期(SHRP;出生后第2 - 14天)重叠,并导致后期学习和记忆缺陷。SHRP期间皮质酮升高会导致神经营养因子变化以及对学习的长期影响。我们确定了两种已知的应激源是否能模拟MA [10(毫克/千克)/剂量]给药对新生大鼠的影响。应激源为4次每次15分钟的强迫游泳或隔离(置于无水的强迫游泳管中)。纳入了生理盐水对照组和仅称重对照组,并且每窝内都包含所有五种处理。在出生后第11天或第15天进行一次或四次处理后(首次给药后0.5、1.75、6.5或24小时),检测血浆中的皮质酮以及新纹状体和海马体中的脑源性神经营养因子(BDNF)和神经生长因子(NGF)。MA增加了皮质酮和BDNF;强迫游泳和隔离也增加了皮质酮,但程度低于MA,且两种应激源均未增加BDNF。NGF不受生理盐水处理的影响,但与仅称重组相比,强迫游泳组的NGF略有降低。数据表明,与短期重复的强迫游泳或隔离发作相比,MA在释放皮质酮和增加BDNF方面更有效。讨论了这些变化与发育期间给予MA的长期认知影响之间的可能关系。

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