Protective effects of a magnesium magnetic isotope (Mg25)-exchanging nanoparticle (25MgPMC16) on mitochondrial functional disorders in esmolol-induced cardiac arrest in rats

Autonomic and Autacoid Pharmacology Pub Date : 2012-03-21 DOI:10.1111/j.1474-8673.2011.00464.x

S. Adeli, M. R. Zarrindast, H. Niknahad, S. Sarkar, S. A. Bidgoli, M. Korani, P. Ghasemzadeh, S. M. Rezayat

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引用次数: 1

Abstract

1 In cardiac surgery, agents are needed to produce temporary cardiac arrest (cardioplegia). One of these agents is esmolol (ESM) which is a short-acting selective beta-1 adrenergic receptor antagonist and its overdose causes diastolic ventricular arrest.

2 The ²⁵MgPMC₁₆ (porphyrin adducts of cyclohexil fullerene-C60) is known as a nanoparticle which has a cardioprotective effect when the heart is subjected to stressful conditions.

3 In this study, we aimed to confirm the deleterious effects of ESM overdose on cardiac mitochondria and identify any protective effects of ²⁵MgPMC₁₆ in male Wistar rats. Esmolol 100 mg kg⁻¹ (LD50 = 71 mg kg⁻¹) was injected intravenously (i.v.) into tail vein to induce cardiac arrest. This dose was obtained from an ESM dose–response curve which induces at least 80% arrest in rats.

4 ²⁵MgPMC₁₆ at three different doses (45, 90 and 224 mg kg⁻¹) was injected i.v. as pretreatment, eight hours before ESM injection. ²⁵MgCl₂ or ²⁴MgPMC₁₆ were used as controls. Following cardiac arrest, the heart was removed and the mitochondria extracted. Mitochondrial viability and the adenosine 5′-diphosphate sodium salt hydrate/Adenosine 5′-triphosphate disodium salt hydrate (ADP/ATP) ratio were measured as biomarkers of mitochondrial function.

5 Results indicate that ²⁵MgPMC₁₆ caused a significant increase in mitochondrial viability and decrease in ADP/ATP ratio. No significant changes were seen with ²⁴MgPMC₁₆ or ²⁵MgCl₂. It is concluded that cardiac arrest induced by ESM overdose leads to a significant decrease in mitochondrial viability and their ATP levels, whereas pretreatment by ²⁵MgPMC₁₆ can protect mitochondria by increasing ATP level through liberation of Mg into cells and the improvement of hypoxia.

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镁磁性同位素(Mg25)交换纳米颗粒(25MgPMC16)对艾司洛尔诱导的心脏骤停大鼠线粒体功能障碍的保护作用

在心脏手术中，需要药物来产生暂时的心脏骤停(心脏骤停)。其中一种药物是艾司洛尔(ESM)，它是一种短效选择性β -1肾上腺素能受体拮抗剂，服用过量会导致舒张期心室骤停。25MgPMC16(环己烯富勒烯- c60的卟啉加合物)被认为是一种纳米颗粒，当心脏受到压力条件时具有心脏保护作用。在本研究中，我们旨在确认ESM过量对雄性Wistar大鼠心脏线粒体的有害作用，并确定25MgPMC16的保护作用。将艾司洛尔100 mg kg−1 (LD50 = 71 mg kg−1)静脉注入尾静脉诱导心脏骤停。该剂量是由ESM剂量-反应曲线获得的，在大鼠中引起至少80%的阻滞。在ESM注射前8小时，静脉注射3种不同剂量(45、90和224 mg kg - 1)的25MgPMC16作为预处理。25MgCl2或24MgPMC16作为对照。心脏骤停后，取出心脏并提取线粒体。测定线粒体活力和腺苷5′-二磷酸钠水合/腺苷5′-三磷酸二钠水合(ADP/ATP)比值作为线粒体功能的生物标志物。5结果表明，25MgPMC16显著提高线粒体活力，降低ADP/ATP比值。24MgPMC16或25MgCl2组未见明显变化。综上所述，ESM过量引起的心脏骤停导致线粒体活力和ATP水平显著降低，而25MgPMC16预处理可以通过Mg释放到细胞中，提高ATP水平，改善缺氧，从而保护线粒体。

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