The Second Department of Cardiology, The Third Hospital of Nanchang, Nanchang 200072, China.
The Second Department of Cardiology, The Third Hospital of Nanchang, Nanchang 200072, China.
Metabolism. 2021 Sep;122:154840. doi: 10.1016/j.metabol.2021.154840. Epub 2021 Jul 29.
Ferroptosis is indicated in cardiovascular diseases. Given the prominent role of mitophagy in the governance of ferroptosis and our recent finding for FUN14 domain containing 1 (FUNDC1) in obesity anomalies, this study evaluated the impact of FUNDC1 deficiency in high fat diet (HFD)-induced cardiac anomalies.
WT and FUNDC1 mice were fed HFD (45% calorie from fat) or low fat diet (LFD, 10% calorie from fat) for 10 weeks in the presence of the ferroptosis inhibitor liproxstatin-1 (LIP-1, 10 mg/kg, i.p.).
RNAseq analysis for differentially expressed genes (DEGs) reported gene ontology term related to ferroptosis and mitophagy in obese rat hearts, which was validated in obese rodent and human hearts. Although 10-week HFD intake did not alter global metabolism, cardiac geometry and function, ablation of FUNDC1 unmasked metabolic derangement, pronounced cardiac remodeling, contractile, intracellular Ca and mitochondrial anomalies upon HFD challenge, the effects of which with exception of global metabolism were attenuated or mitigated by LIP-1. FUNDC1 ablation unmasked HFD-evoked rises in fatty acid synthase ACSL4, necroptosis, inflammation, ferroptosis, mitochondrial O production, and mitochondrial injury as well as dampened autophagy and DNA repair enzyme 8-oxoG DNA glycosylase 1 (OGG1) but not apoptosis, the effect of which except ACSL4 and its regulator SP1 was reversed by LIP-1. In vitro data noted that arachidonic acid, an ACSL4 substrate, provoked cytochrome C release, cardiomyocyte defect, and lipid peroxidation under FUNDC1 deficiency, the effects were interrupted by inhibitors of SP1, ACSL4 and ferroptosis.
These data suggest that FUNDC1 deficiency sensitized cardiac remodeling and dysfunction with short-term HFD exposure, likely through ACSL4-mediated regulation of ferroptosis.
铁死亡与心血管疾病有关。鉴于自噬在铁死亡调控中的重要作用,以及我们最近发现 FUN14 结构域包含蛋白 1(FUNDC1)在肥胖异常中的作用,本研究评估了 FUNDC1 缺乏对高脂肪饮食(HFD)诱导的心脏异常的影响。
WT 和 FUNDC1 小鼠在高脂肪饮食(45%热量来自脂肪)或低脂饮食(10%热量来自脂肪)喂养 10 周的同时,给予铁死亡抑制剂 liproxstatin-1(LIP-1,10mg/kg,腹腔注射)。
差异表达基因(DEGs)的 RNAseq 分析报告了肥胖大鼠心脏中与铁死亡和自噬相关的基因本体论术语,这在肥胖啮齿动物和人类心脏中得到了验证。虽然 10 周的 HFD 摄入不会改变整体代谢,但 FUNDC1 的缺失揭示了代谢紊乱、明显的心脏重构、收缩、细胞内 Ca 和线粒体异常,这些异常在 HFD 挑战下,除了整体代谢外,均被 LIP-1 减弱或缓解。FUNDC1 的缺失揭示了 HFD 引起的脂肪酸合酶 ACSL4、坏死性凋亡、炎症、铁死亡、线粒体 O 产生和线粒体损伤的增加,以及自噬和 DNA 修复酶 8-氧鸟嘌呤 DNA 糖基化酶 1(OGG1)的减少,但不包括细胞凋亡,除 ACSL4 和其调节因子 SP1 外,这些作用都被 LIP-1 逆转。体外数据表明,在 FUNDC1 缺乏的情况下,花生四烯酸(ACSL4 的底物)引起细胞色素 C 释放、心肌细胞缺陷和脂质过氧化,这些作用被 SP1、ACSL4 和铁死亡抑制剂阻断。
这些数据表明,FUNDC1 的缺乏使心脏重构和功能在短期 HFD 暴露下变得敏感,可能是通过 ACSL4 介导的铁死亡调节。
