Suppression of neuronal CDK9/p53/VDAC signaling provides bioenergetic support and improves post-stroke neuropsychiatric outcomes.

IF 6.2 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Cellular and Molecular Life Sciences Pub Date : 2024-09-05 DOI:10.1007/s00018-024-05428-4
Jing Xia, Tingting Zhang, Ying Sun, Zhu Huang, Dingfang Shi, Dongshen Qin, Xuejun Yang, Hao Liu, Guiying Yao, Libin Wei, Xiaoai Chang, Jun Gao, Yongjian Guo, Xiao-Yu Hou
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Abstract

Bioenergy decline occurs with reperfusion following acute ischemic stroke. However, the molecular mechanisms that limit energy metabolism and their impact on post-stroke cognitive and emotional complications are still unclear. In the present study, we demonstrate that the p53 transcriptional response is responsible for neuronal adenosine triphosphate (ATP) deficiency and progressively neuropsychiatric disturbances, involving the downregulation of mitochondrial voltage-dependent anion channels (VDACs). Neuronal p53 transactivated the promoter of microRNA-183 (miR-183) cluster, thereby upregulating biogenesis of miR-183-5p (miR-183), miR-96-5p (miR-96), and miR-182-5p. Both miR-183 and miR-96 directly targeted and post-transcriptionally suppressed VDACs. Neuronal ablation of p53 protected against ATP deficiency and neurological deficits, whereas post-stroke rescue of miR-183/VDAC signaling reversed these benefits. Interestingly, cyclin-dependent kinase 9 (CDK9) was found to be enriched in cortical neurons and upregulated the p53-induced transcription of the miR-183 cluster in neurons after ischemia. Post-treatment with the CDK9 inhibitor oroxylin A promoted neuronal ATP production mainly through suppressing the miR-183 cluster/VDAC axis, further improved long-term sensorimotor abilities and spatial memory, and alleviated depressive-like behaviors in mice following stroke. Our findings reveal an intrinsic CDK9/p53/VDAC pathway that drives neuronal bioenergy decline and underlies post-stroke cognitive impairment and depression, thus highlighting the therapeutic potential of oroxylin A for better outcomes.

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抑制神经元 CDK9/p53/VDAC 信号传导可提供生物能量支持,改善中风后的神经精神状况。
急性缺血性脑卒中再灌注后会出现生物能下降。然而,限制能量代谢的分子机制及其对中风后认知和情绪并发症的影响仍不清楚。在本研究中,我们证明了 p53 转录反应是导致神经元三磷酸腺苷(ATP)缺乏和神经精神障碍的原因,涉及线粒体电压依赖性阴离子通道(VDACs)的下调。神经元 p53 可反式激活 microRNA-183 (miR-183)簇的启动子,从而上调 miR-183-5p(miR-183)、miR-96-5p(miR-96)和 miR-182-5p 的生物生成。miR-183 和 miR-96 都直接靶向并转录后抑制 VDACs。神经元消融 p53 可防止 ATP 缺乏和神经功能缺损,而中风后挽救 miR-183/VDAC 信号则可逆转这些益处。有趣的是,研究发现细胞周期蛋白依赖性激酶9(CDK9)在皮层神经元中富集,并上调缺血后神经元中p53诱导的miR-183簇的转录。CDK9抑制剂奥罗素A主要通过抑制miR-183簇/VDAC轴促进神经元ATP的产生,进一步改善小鼠中风后的长期感觉运动能力和空间记忆,并减轻小鼠的抑郁样行为。我们的研究结果揭示了CDK9/p53/VDAC的内在通路,该通路驱动神经元生物能下降,是脑卒中后认知障碍和抑郁的基础,从而凸显了奥洛克西林A的治疗潜力。
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来源期刊
Cellular and Molecular Life Sciences
Cellular and Molecular Life Sciences 生物-生化与分子生物学
CiteScore
13.20
自引率
1.20%
发文量
546
审稿时长
1.0 months
期刊介绍: Journal Name: Cellular and Molecular Life Sciences (CMLS) Location: Basel, Switzerland Focus: Multidisciplinary journal Publishes research articles, reviews, multi-author reviews, and visions & reflections articles Coverage: Latest aspects of biological and biomedical research Areas include: Biochemistry and molecular biology Cell biology Molecular and cellular aspects of biomedicine Neuroscience Pharmacology Immunology Additional Features: Welcomes comments on any article published in CMLS Accepts suggestions for topics to be covered
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