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首页> 外文期刊>Human Molecular Genetics >Ulk2 controls cortical excitatory-inhibitory balance via autophagic regulation of p62 and GABA(A) receptor trafficking in pyramidal neurons
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Ulk2 controls cortical excitatory-inhibitory balance via autophagic regulation of p62 and GABA(A) receptor trafficking in pyramidal neurons

机译:ULK2通过P62和GABA(A)受体贩运金字塔神经元的自噬调节来控制皮质兴奋性抑制余量

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摘要

Autophagy plays an essential role in intracellular degradation and maintenance of cellular homeostasis in all cells, including neurons. Although a recent study reported a copy number variation of Ulk2, a gene essential for initiating autophagy, associated with a case of schizophrenia (SZ), it remains to be studied whether Ulk2 dysfunction could underlie the pathophysiology of the disease. Here we show that Ulk2 heterozygous (Ulk2(+/-)) mice have upregulated expression of sequestosome-1/p62, an autophagy-associated stress response protein, predominantly in pyramidal neurons of the prefrontal cortex (PFC), and exhibit behavioral deficits associated with the PFC functions, including attenuated sensorimotor gating and impaired cognition. Ulk2(+/-) neurons showed imbalanced excitatory-inhibitory neurotransmission, due in part to selective down-modulation of gamma-aminobutyric acid (GABA)(A) receptor surface expression in pyramidal neurons. Genetically reducing p62 gene dosage or suppressing p62 protein levels with an autophagy-inducing agent restored the GABA(A) receptor surface expression and rescued the behavioral deficits in Ulk2(+/-) mice. Moreover, expressing a short peptide that specifically interferes with the interaction of p62 and GABA(A) receptor-associated protein, a protein that regulates endocytic trafficking of GABA(A) receptors, also restored the GABA(A) receptor surface expression and rescued the behavioral deficits in Ulk2(+/-) mice. Thus, the current study reveals a novel mechanism linking deregulated autophagy to functional disturbances of the nervous system relevant to SZ, through regulation of GABA(A) receptor surface presentation in pyramidal neurons.
机译:自噬在于在所有细胞中的细胞内降解和维持在所有细胞中,包括神经元的细胞稳态。尽管最近的研究报告了ULK2的拷贝数变异,但是与精神分裂症(SZ)的案例引发自噬的基因,仍有待研究ULK2功能障碍是否可以利于疾病的病理生理学。在这里,我们表明ULK2杂合(ULK2(+/-))小鼠具有上调的封闭式-1 / p62,自噬相关应激响应蛋白,主要是在预逆转性皮层(PFC)的金字塔神经元中,表现出相关的行为缺陷通过PFC功能,包括衰减传感器门控和障碍认知。 ULK2(+/-)神经元显示出不平衡的兴奋性抑制性神经递质,部分是因为选择性地下调γ-氨基丁酸(GABA)(A)受体表面表达中的γ-氨基丁酸(A)受体表面表达。基因减少P62基因剂量或抑制与自噬诱导剂的P62蛋白水平恢复到GABA(A)受体表面表达,并拯救了ULK2(+/-)小鼠的行为缺陷。此外,表达特异性干扰P62和GABA(A)受体相关蛋白的相互作用的短肽,该蛋白质调节GABA(A)受体的内吞贩,还恢复了GABA(A)受体表面表达并救出了ULK2(+/-)小鼠中的行为赤字。因此,目前的研究显示了一种新的机制,通过调节锥形神经元的GABA(A)受体表面呈现来将Derozation自噬与与SZ相关的神经系统的功能性干扰联系起来。

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  • 来源
    《Human Molecular Genetics》 |2018年第18期|共12页
  • 作者

    Sumitomo Akiko; Yukitake Hiroshi; Hirai Kazuko; Horike Kouta; Ueta Keisho; Chung Youjin; Warabi Eiji; Yanagawa Toru; Kitaoka Shiho; Furuyashiki Tomoyuki; Narumiya Shuh; Hirano Tomoo; Niwa Minae; Sibille Etienne; Hikida Takatoshi; Sakurai Takeshi; Ishizuka Koko; Sawa Akira; Tomoda Toshifumi;

  • 作者单位

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Johns Hopkins Univ Sch Med Dept Psychiat &

    Behav Sci Baltimore MD 21287 USA;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Johns Hopkins Univ Sch Med Dept Psychiat &

    Behav Sci Baltimore MD 21287 USA;

    Univ Tsukuba Fac Med Tsukuba Ibaraki 3058575 Japan;

    Univ Tsukuba Fac Med Tsukuba Ibaraki 3058575 Japan;

    Kyoto Univ Med Innovat Ctr CREST Project Grad Sch Med Kyoto 6068507 Japan;

    Kyoto Univ Med Innovat Ctr CREST Project Grad Sch Med Kyoto 6068507 Japan;

    Kyoto Univ Med Innovat Ctr CREST Project Grad Sch Med Kyoto 6068507 Japan;

    Kyoto Univ Dept Biophys Grad Sch Sci Kyoto 6068502 Japan;

    Johns Hopkins Univ Sch Med Dept Psychiat &

    Behav Sci Baltimore MD 21287 USA;

    Univ Toronto Campbell Family Mental Hlth Res Inst Ctr Addict &

    Mental Hlth Toronto ON M5T 1R8;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

    Johns Hopkins Univ Sch Med Dept Psychiat &

    Behav Sci Baltimore MD 21287 USA;

    Johns Hopkins Univ Sch Med Dept Psychiat &

    Behav Sci Baltimore MD 21287 USA;

    Kyoto Univ Grad Sch Med Med Innovat Ctr Dept Res &

    Drug Discovery Kyoto 6068507 Japan;

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  • 正文语种 eng
  • 中图分类 医学遗传学;
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