Hypothyroidism modulates mitochondrial dynamics and mitophagy in the heart of rats under fed and fasting conditions.

IF 5.2 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Life sciences Pub Date : 2024-11-15 DOI:10.1016/j.lfs.2024.123254
Juliana Santos Romão, Jessika Geisebel Oliveira Neto, Cherley Borba Vieira Andrade, Jorge José Carvalho, Carmen Cabanelas Pazos-Moura, Karen Jesus Oliveira
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Abstract

Aims: Investigate the impact of hypothyroidism on mitochondrial dynamics and mitophagy in the heart under fed and fasting conditions.

Methods: Hypothyroidism was induced in male Wistar rats with methimazole (0.03 %) for 21 days. Half of the euthyroid and hypothyroid groups underwent a 48-h fasting. Mitochondrial number and ultrastructure were evaluated by transmission electron microscopy. Fusion, fission, mitophagy, oxidative stress, and mitochondrial oxidative phosphorylation system (OXPHOS) components were analyzed by Western Blot and qPCR.

Results: Hypothyroidism increased DRP1 activation and the p-DRP1/OPA1 ratio, indicating a shift toward mitochondrial fission over fusion. Under fasting, hypothyroidism prevented the increases in mitochondrial size, elongation, OPA1, and OXPHOS seen in euthyroid fasted rats. Hypothyroidism also raised 4-HNE content, an oxidative stress product, increased mitochondrial injury, and exacerbated fasting-related mitochondrial damage. This was accompanied by elevated Parkin levels in both fed and fasted hypothyroid groups, but without changes in PINK1 levels or Parkin activation. While fasting upregulated Bnip3l and Map1lc3b expression in euthyroid rats, hypothyroidism suppressed this response, though it did not prevent fasting-induced Bnip3 increases.

Conclusions: Hypothyroidism increases the activation of mitochondrial fission machinery and oxidative stress, and induces mitochondrial damage without activation of mitophagy proteins, suggesting disrupted mitophagy signaling. It also interferes with fasting-induced mitochondrial dynamics adaptations, highlighting the essential role of thyroid hormones in metabolic adaptation to fasting.

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甲状腺机能减退可调节大鼠心脏在进食和禁食条件下的线粒体动力学和有丝分裂。
方法:用甲巯咪唑(0.03 %)诱导雄性 Wistar 大鼠甲状腺机能减退 21 天。甲状腺功能正常组和甲状腺功能减退组各占一半,均禁食 48 小时。透射电子显微镜评估了线粒体的数量和超微结构。融合、裂变、有丝分裂、氧化应激和线粒体氧化磷酸化系统(OXPHOS)成分通过 Western Blot 和 qPCR 进行分析:结果:甲状腺机能减退增加了DRP1的激活和p-DRP1/OPA1的比率,表明线粒体裂变比融合更重要。在禁食情况下,甲状腺机能减退会阻止甲状腺机能正常的禁食大鼠线粒体大小、伸长、OPA1 和 OXPHOS 的增加。甲减还会增加氧化应激产物 4-HNE 的含量,加重线粒体损伤,并加剧与空腹有关的线粒体损伤。在喂食和禁食的甲状腺机能减退组中,Parkin的水平也随之升高,但PINK1的水平或Parkin的活化没有发生变化。在甲状腺功能正常的大鼠中,禁食会上调Bnip3l和Map1lc3b的表达,而甲减抑制了这种反应,尽管它并没有阻止禁食诱导的Bnip3增加:结论:甲减会增加线粒体裂变机制的激活和氧化应激,并在不激活有丝分裂蛋白的情况下诱导线粒体损伤,这表明有丝分裂信号传导发生了紊乱。甲状腺机能减退还会干扰禁食诱导的线粒体动力学适应,突出了甲状腺激素在禁食代谢适应中的重要作用。
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来源期刊
Life sciences
Life sciences 医学-药学
CiteScore
12.20
自引率
1.60%
发文量
841
审稿时长
6 months
期刊介绍: Life Sciences is an international journal publishing articles that emphasize the molecular, cellular, and functional basis of therapy. The journal emphasizes the understanding of mechanism that is relevant to all aspects of human disease and translation to patients. All articles are rigorously reviewed. The Journal favors publication of full-length papers where modern scientific technologies are used to explain molecular, cellular and physiological mechanisms. Articles that merely report observations are rarely accepted. Recommendations from the Declaration of Helsinki or NIH guidelines for care and use of laboratory animals must be adhered to. Articles should be written at a level accessible to readers who are non-specialists in the topic of the article themselves, but who are interested in the research. The Journal welcomes reviews on topics of wide interest to investigators in the life sciences. We particularly encourage submission of brief, focused reviews containing high-quality artwork and require the use of mechanistic summary diagrams.
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