DiNP 诱导的小鼠哮喘模型中的心脏能量转移、线粒体氧化应激、致癌和细胞凋亡信号传导功能失调

Samuel Abiodun Kehinde, Abosede Temitope Olajide, Tolulope Peter Fatokun, Dalia Faroud, Najah R. Hadi, Ahmed M. Elgazzar, Adewale Segun James, Mohamed H. Mazhar Ashour
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摘要

邻苯二甲酸二异壬酯(DiNP)与过敏、哮喘和过敏性气道炎症的发生有关。通过信号和反馈机制的复杂相互作用,肺与心脏进行沟通,以确保维持体内平衡和支持机体的代谢需求。在本研究中,我们评估了 DiNP 诱导的哮喘与心脏细胞呼吸、氧化应激、凋亡潜能和致癌因子诱导之间的相互影响。10 只体重为 20-30 克的雄性 BALB/c 小鼠被分为两组,每组 5 只。第 1 组(对照组)口服生理盐水,为期 30 天。而第 2 组(DiNP 组)则接受 50 毫克/千克 DiNP 诱导哮喘。在最后一次给药和诱发哮喘后,小鼠被安乐死,其心脏被切除、处理并进行生化分析。与对照组相比,DiNP 组除了己糖激酶和琥珀酸脱氢酶活性上调外,其他糖酵解酶、三环酸循环酶和电子传递链酶活性均下调(P <0.05)。此外,氧化损伤标志物(GSH、CAT、MDA 和 SOD)也受到了干扰。与对照组相比,DiNP 诱导的哮喘小鼠心脏中的炎症生物标志物(MPO 和 NO)明显升高(P < 0.05)。此外,与对照组相比,DiNP 诱导的哮喘组心脏 caspase-3、Bax、c-Myc 和 K-ras 以及 p53 增加,而 Bcl2 减少。总之,研究结果表明,DiNP 诱导的哮喘会通过诱导关键的心脏癌基因、下调心脏能量、酶的转导以及促进氧化应激和细胞死亡来损害心脏功能。 图表摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dysfunctional cardiac energy transduction, mitochondrial oxidative stress, oncogenic and apoptotic signaling in DiNP-induced asthma in murine model

Dysfunctional cardiac energy transduction, mitochondrial oxidative stress, oncogenic and apoptotic signaling in DiNP-induced asthma in murine model

Diisononyl phthalate (DiNP) has been associated with the development of allergies, asthma, and allergic airway inflammation. Through a complex interplay of signals and feedback mechanisms, the lungs communicate with the heart to ensure maintenance of homeostasis and supporting the body’s metabolic demands. In the current study, we assessed the crosstalk between DiNP-induced asthma and cardiac cellular respiration, oxidative stress, apoptotic potential, and induction of oncogenic factors. Ten male BALB/c mice with a weight range of 20–30 g were divided into two groups, each comprising five mice. Group 1 (control), was administered saline orally for a duration of 30 days. In contrast, group 2 (DiNP group), received 50 mg/kg of DiNP to induce asthma. After the final administration and asthma induction, the mice were euthanized, and their hearts were excised, processed, and subjected to biochemical analyses. The DiNP group had downregulated (P < 0.05) activities of the enzymes of glycolysis, tricyclic acid cycle, and electron transport chain except the hexokinase and succinate dehydrogenase activity which were upregulate relative to control. Also, oxidative distress markers (GSH, CAT, and MDA and SOD) were also perturbed. Biomarkers of inflammation (MPO and NO) were considerably higher (P < 0.05) in the heart of DiNP-induced asthma mice as compared with the control group. Furthermore, DiNP-induced asthma group has an increased cardiac caspase-3, Bax, c-Myc and K-ras, and p53 while the Bcl2 decreased when compared with control. Overall, the findings indicate that DiNP-induced asthma impairs cardiac functions by induction of key cardiac oncogenes, downregulation of cardiac energy, transduction of enzymes, and promotion of oxidative stress and cellular death.

Graphical abstract

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