Mitochondrial ferritin upregulation by deferiprone reduced neuronal ferroptosis and improved neurological deficits via NDRG1/Yap pathway in a neonatal rat model of germinal matrix hemorrhage.

IF 4.9 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Ye Yuan, Xiao Yang, Yutong Zhao, Jerry J Flores, Lei Huang, Lingui Gu, Ruihao Li, Xingyu Zhang, Shiyi Zhu, Siyuan Dong, Hideki Kanamaru, Qiuguang He, Yihao Tao, Kun Yi, Mingyang Han, Xionghui Chen, Lei Wu, John H Zhang, Zongyi Xie, Jiping Tang
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引用次数: 0

Abstract

Ferroptosis contributes to brain injury after germinal matrix hemorrhage (GMH). Mitochondrial ferritin (FTMT), a novel mitochondrial outer membrane protein, reduces oxidative stress in neurodegenerative diseases. In vitro, Deferiprone has been shown to upregulate FTMT. However, the effects of FTMT upregulation by Deferiprone on neuronal ferroptosis after GMH and its underlying mechanism has not been investigated. In our study, 389 Sprague-Dawley rat pups of postnatal day 7 were used to establish a collagenase-induced GMH model and an iron-overload model of intracerebral FeCl2 injection. The brain expressions of FTMT, N-myc downstream-regulated gene-1 (NDGR1), Yes-associated protein (YAP), ferroptosis-related molecules including transferrin receptor (TFR) and acyl-CoA synthase long-chain family member 4 (ACSL4) were increased after GMH. FTMT agonist Deferiprone improved neurological deficits and hydrocephalus after GMH. Deferiprone or Adenovirus-FTMT enhanced YAP phosphorylation at the Ser127 site and attenuated ferroptosis, which was reversed by NDRG1 CRISPR Knockout. Iron overload induced neuronal ferroptosis and neurological deficits, which were improved by YAP CRISPR Knockout. Collectively, FTMT upregulation by Deferiprone reduced neuronal ferroptosis and neurological deficits via the NDRG1/YAP signaling pathway after GMH. Deferiprone may serve as a potential non-invasive treatment for GMH patients.

在新生大鼠胚芽基质出血模型中,去铁酮通过NDRG1/Yap途径上调线粒体铁蛋白可减少神经元铁突变并改善神经功能缺损。
铁蛋白沉积是胚芽基质出血(GMH)后脑损伤的原因之一。线粒体铁蛋白(FTMT)是一种新型线粒体外膜蛋白,可减少神经退行性疾病中的氧化应激。在体外,去铁酮已被证明能上调 FTMT。然而,去铁酮上调 FTMT 对 GMH 后神经元铁突变的影响及其内在机制尚未得到研究。在我们的研究中,389只出生后第7天的Sprague-Dawley大鼠幼仔被用来建立胶原酶诱导的GMH模型和脑内注射氯化铁的铁超载模型。GMH后,FTMT、N-myc下游调控基因-1(NDGR1)、Yes相关蛋白(YAP)、铁突变相关分子(包括转铁蛋白受体(TFR)和酰基-CoA合成酶长链家族成员4(ACSL4))的脑表达量增加。FTMT激动剂去铁酮能改善GMH后的神经功能缺损和脑积水。去铁酮或腺病毒-FTMT增强了YAP在Ser127位点的磷酸化并减轻了铁突变,NDRG1 CRISPR基因敲除可逆转这种情况。铁超载诱导神经元铁沉积和神经功能缺损,YAP CRISPR敲除可改善这些症状。总之,去铁酮上调FTMT可通过NDRG1/YAP信号通路减少GMH后神经元铁突变和神经功能缺损。去铁酮可能是治疗GMH患者的一种潜在的非侵入性疗法。
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来源期刊
Journal of Cerebral Blood Flow and Metabolism
Journal of Cerebral Blood Flow and Metabolism 医学-内分泌学与代谢
CiteScore
12.00
自引率
4.80%
发文量
300
审稿时长
3 months
期刊介绍: JCBFM is the official journal of the International Society for Cerebral Blood Flow & Metabolism, which is committed to publishing high quality, independently peer-reviewed research and review material. JCBFM stands at the interface between basic and clinical neurovascular research, and features timely and relevant research highlighting experimental, theoretical, and clinical aspects of brain circulation, metabolism and imaging. The journal is relevant to any physician or scientist with an interest in brain function, cerebrovascular disease, cerebral vascular regulation and brain metabolism, including neurologists, neurochemists, physiologists, pharmacologists, anesthesiologists, neuroradiologists, neurosurgeons, neuropathologists and neuroscientists.
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