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空间记忆保持受损的突变 GAP-43 转基因小鼠中海马苔藓纤维的异位生长。

Ectopic growth of hippocampal mossy fibers in a mutated GAP-43 transgenic mouse with impaired spatial memory retention.

机构信息

Department of Psychology, Institute of Neuroscience, Carleton University, Ottawa, ON K1S 5B6, Canada.

出版信息

Hippocampus. 2010 Jan;20(1):58-64. doi: 10.1002/hipo.20635.

DOI:10.1002/hipo.20635
PMID:19437419
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2801775/
Abstract

In a previous study, it was shown that transgenic mice, designated G-NonP, forget the location of a water maze hidden platform when tested 7 days after the last training day (Holahan and Routtenberg (2008) Hippocampus 18:1099-1102). The memory loss in G-NonP mice might be related to altered hippocampal architecture suggested by the fact that in the rat, 7 days after water maze training, there is discernible mossy fiber (MF) growth (Holahan et al. (2006) Hippocampus 16:560-570; Rekart et al. (2007) Learn Mem 14:416-421). In the present report, we studied the distribution of the MF system within the hippocampus of naïve, untrained, G-NonP mouse. In WT mice, the MF projection was restricted to the stratum lucidum of CA3 with no detectable MF innervation in distal stratum oriens (dSO). In G-NonP mice, in contrast, there was an ectopic projection terminating in the CA3 dSO. Unexpectedly, there was nearly a complete loss of immunostaining for the axonal marker Tau1 in the G-NonP transgenic mice in the MF terminal fields indicating that transgenesis itself leads to off-target consequences (Routtenberg (1996) Trends Neurosci 19:471-472). Because transgenic mice overexpressing nonmutated, wild type GAP-43 do not show this ectopic growth (Rekart et al., in press) and the G-NonP mice overexpress a mutated form of GAP-43 precluding its phosphorylation by protein kinase C (PKC), the possibility exists that permanently dephosphorylated GAP-43 disrupts normal axonal fasciculation which gives rise to the ectopic growth into dSO.

摘要

在之前的一项研究中,研究人员发现,在最后一次训练日的 7 天后进行测试时,被称为 G-NonP 的转基因小鼠会忘记水迷宫隐藏平台的位置(Holahan 和 Routtenberg(2008)Hippocampus 18:1099-1102)。G-NonP 小鼠的记忆丧失可能与海马结构的改变有关,因为在大鼠中,在水迷宫训练 7 天后,可观察到苔藓纤维(MF)的生长(Holahan 等人(2006)Hippocampus 16:560-570; Rekart 等人(2007)Learn Mem 14:416-421)。在本报告中,我们研究了未训练的 G-NonP 小鼠海马 MF 系统的分布。在 WT 小鼠中,MF 投射仅限于 CA3 的透明层,在远端的 CA3 放射状层(dSO)中没有可检测到的 MF 神经支配。相比之下,在 G-NonP 小鼠中,存在一个异位投射终止于 CA3 dSO。出乎意料的是,在 G-NonP 转基因小鼠的 MF 末端场中,用于轴突标记 Tau1 的免疫染色几乎完全丢失,这表明转基因本身会导致脱靶后果(Routtenberg(1996)Trends Neurosci 19:471-472)。因为过度表达非突变、野生型 GAP-43 的转基因小鼠不会出现这种异位生长(Rekart 等人,即将发表),并且 G-NonP 小鼠过度表达一种突变形式的 GAP-43,从而阻止其被蛋白激酶 C(PKC)磷酸化,因此,永久性去磷酸化的 GAP-43 可能会破坏正常的轴突聚集,从而导致异位生长进入 dSO。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/cc57850cb9f9/nihms-108853-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/481ff4a900f4/nihms-108853-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/9704a915dd49/nihms-108853-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/fb72b1038918/nihms-108853-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/cc57850cb9f9/nihms-108853-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/481ff4a900f4/nihms-108853-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/9704a915dd49/nihms-108853-f0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/fb72b1038918/nihms-108853-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc77/2801775/cc57850cb9f9/nihms-108853-f0004.jpg

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Remodeling of hippocampal mossy fibers is selectively induced seven days after the acquisition of a spatial but not a cued reference memory task.
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Toxicol Rep. 2020 Mar 19;7:480-491. doi: 10.1016/j.toxrep.2020.03.006. eCollection 2020.
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