Apelin-13 Reverses Bupivacaine-Induced Cardiotoxicity via the Adenosine Monophosphate–Activated Protein Kinase Pathway

安普克 蛋白激酶B 蛋白激酶A 阿佩林 布比卡因 AMP活化蛋白激酶 PI3K/AKT/mTOR通路 活性氧 药理学 内分泌学 生物化学 磷酸化 生物 化学 信号转导 受体
作者
Yingchao Ye,Yaoyao Cai,Erjie Xia,Kejian Shi,Zhousheng Jin,Hongfei Chen,Fangfang Xia,Yun Xia,Thomas J. Papadimos,Xuzhong Xu,Le Liu,Quanguang Wang
出处
期刊:Anesthesia & Analgesia [Lippincott Williams & Wilkins]
卷期号:133 (4): 1048-1059 被引量:14
标识
DOI:10.1213/ane.0000000000005692
摘要

BACKGROUND: Cardiotoxicity can be induced by the commonly used amide local anesthetic, bupivacaine. Bupivacaine can inhibit protein kinase B (AKT) phosphorylation and activated adenosine monophosphate–activated protein kinase alpha (AMPKα). It can decouple mitochondrial oxidative phosphorylation and enhance reactive oxygen species (ROS) production. Apelin enhances the phosphatidylinositol 3-kinase (PI3K)/AKT and AMPK/acetyl-CoA carboxylase (ACC) pathways, promotes the complete fatty acid oxidation in the heart, and reduces the release of ROS. In this study, we examined whether exogenous (Pyr1) apelin-13 could reverse bupivacaine-induced cardiotoxicity. METHODS: We used the bupivacaine-induced inhibition model in adult male Sprague Dawley (SD) rats (n = 48) and H9c2 cardiomyocyte cell cultures to explore the role of apelin-13 in the reversal of bupivacaine cardiotoxicity, and its possible mechanism of action. AMPKα, ACC, carnitine palmitoyl transferase (CPT), PI3K, AKT, superoxide dismutase 1 (SOD1), and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase (p47-phox) were quantified. Changes in mitochondrial ultrastructure were examined, and mitochondrial DNA, cell viability, ROS release, oxygen consumption rate (OCR) were determined. RESULTS: Apelin-13 reduced bupivacaine-induced mitochondrial DNA lesions in SD rats ( P < .001), while increasing the expression of AMPKα ( P = .007) and PI3K ( P = .002). Furthermore, apelin-13 blocked bupivacaine-induced depolarization of the mitochondrial membrane potential ( P = .019) and the bupivacaine-induced increases in ROS ( P = .001). Also, the AMPK pathway was activated by bupivacaine as well as apelin-13 ( P = .002) in H9c2 cardiomyocytes. Additionally, the reduction in the PI3K expression by bupivacaine was mitigated by apelin-13 in H9c2 cardiomyocytes ( P = .001). While the aforementioned changes induced by bupivacaine were not abated by apelin-13 after pretreatment with AMPK inhibitor compound C; the bupivacaine-induced changes were still mitigated by apelin-13, even when pretreated with PI3K inhibitor-LY294002. CONCLUSIONS: Apelin-13 treatment reduced bupivacaine-induced oxidative stress, attenuated mitochondrial morphological changes and mitochondrial DNA damage, enhanced mitochondrial energy metabolism, and ultimately reversed bupivacaine-induced cardiotoxicity. Our results suggest a role for the AMPK in apelin-13 reversal of bupivacaine-induced cardiotoxicity.
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