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首页> 美国卫生研究院文献>The Journal of Biological Chemistry >Conditional Deletion of Notch1 and Notch2 Genes in Excitatory Neurons of Postnatal Forebrain Does Not Cause Neurodegeneration or Reduction of Notch mRNAs and Proteins
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Conditional Deletion of Notch1 and Notch2 Genes in Excitatory Neurons of Postnatal Forebrain Does Not Cause Neurodegeneration or Reduction of Notch mRNAs and Proteins

机译:有条件地删除产后前脑的兴奋性神经元中的Notch1和Notch2基因不会导致神经变性或Notch mRNA和蛋白质的减少

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Activation of Notch signaling requires intramembranous cleavage by γ-secretase to release the intracellular domain. We previously demonstrated that presenilin and nicastrin, components of the γ-secretase complex, are required for neuronal survival in the adult cerebral cortex. Here we investigate whether Notch1 and/or Notch2 are functional targets of presenilin/γ-secretase in promoting survival of excitatory neurons in the adult cerebral cortex by generating Notch1, Notch2, and Notch1/Notch2 conditional knock-out (cKO) mice. Unexpectedly, we did not detect any neuronal degeneration in the adult cerebral cortex of these Notch cKO mice up to ∼2 years of age, whereas conditional inactivation of presenilin or nicastrin using the same αCaMKII-Cre transgenic mouse caused progressive, striking neuronal loss beginning at 4 months of age. More surprisingly, we failed to detect any reduction of Notch1 and Notch2 mRNAs and proteins in the cerebral cortex of Notch1 and Notch2 cKO mice, respectively, even though Cre-mediated genomic deletion of the floxed Notch1 and Notch2 exons clearly took place in the cerebral cortex of these cKO mice. Furthermore, introduction of Cre recombinase into primary cortical cultures prepared from postnatal floxed Notch1/Notch2 pups, where Notch1 and Notch2 are highly expressed, completely eliminated their expression, indicating that the floxed Notch1 and Notch2 alleles can be efficiently inactivated in the presence of Cre. Together, these results demonstrate that Notch1 and Notch2 are not involved in the age-related neurodegeneration caused by loss of presenilin or γ-secretase and suggest that there is no detectable expression of Notch1 and Notch2 in pyramidal neurons of the adult cerebral cortex.
机译:Notch信号的激活需要被γ-分泌酶裂解以释放细胞内结构域。我们先前证明,早老素和尼卡斯特林是γ-分泌酶复合物的组成部分,是成人大脑皮层神经元存活所必需的。在这里,我们调查Notch1和/或Notch2是否是早老素/γ-分泌酶的功能靶标,可通过生成Notch1,Notch2和Notch1 / Notch2条件敲除(cKO)小鼠来促进成人大脑皮层中兴奋性神经元的存活。出乎意料的是,我们没有发现这些Notch cKO小鼠至2岁时在成年大脑皮层中有任何神经元变性,而使用相同的αCaMKII-Cre转基因小鼠使早老素或尼卡斯特林条件性失活会导致渐进的,惊人的神经元损失,始于4个月大。更令人惊讶的是,即使Cre介导的Notch1和Notch2外显子显着基因组缺失明显发生在大脑皮层中,我们也未能检测到Notch1和Notch2 cKO小鼠大脑皮层中Notch1和Notch2 mRNA和蛋白的任何减少。这些cKO小鼠中。此外,将Cre重组酶引入由高表达Notch1和Notch2的产后狐狸Notch1 / Notch2幼崽制备的原代皮层培养物中,完全消除了它们的表达,表明在Cre的存在下可以有效地灭活狐狸Notch1和Notch2等位基因。在一起,这些结果表明Notch1和Notch2不参与由早老素或γ-分泌酶的丧失引起的与年龄有关的神经变性,并且表明在成人大脑皮质的锥体神经元中没有可检测到的Notch1和Notch2表达。

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