Experimental Hypomagnesemia Induces Neurogenic Inflammation and Cardiac Dysfunction

J. Kramer, I. Mak, J. Chmielinska, C. Spurney, T. Phillips, W. Weglicki
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引用次数: 0

Abstract

Hypomagnesemia occurs clinically as a result of restricted dietary intake, Mg-wasting drug therapies, chronic disease status and may be a risk factor in patients with cardiovascular disorders. Dietary restriction of magnesium (Mg deficiency) in animal models produced a pro-inflammatory/pro-oxidant condition, involving hematopoietic, neuronal, cardiovascular, renal and other systems. In Mg-deficient rodents, early elevations in circulating levels of the neuropeptide, substance P (SP) may trigger subsequent deleterious inflammatory/oxidative/nitrosative stress events. Evidence also suggests that activity of neutral endopeptidase (NEP, neprilysin), the major SP-degrading enzyme, may be impaired during later stages of Mg deficiency, and this may sustain the neurogenic inflammatory response. In this article, experimental findings using substance P receptor blockade, NEP inhibition, and N-methyl-D-aspartate (NMDA) receptor blockade demonstrated the connection between hypomagnesemia, neurogenic inflammation, oxidative stress and enhanced cardiac dysfunction. Proof of concept concerning neurogenic inflammation is provided using an isolated perfused rat heart model exposed to acute reductions in perfusate magnesium concentrations.
实验性低镁血症诱导神经源性炎症和心功能障碍
低镁血症在临床上是由于饮食摄入受限、镁浪费药物治疗、慢性疾病状态造成的,可能是心血管疾病患者的一个危险因素。动物模型中对镁的饮食限制(镁缺乏)产生了促炎/促氧化状态,涉及造血、神经元、心血管、肾脏和其他系统。在缺镁啮齿动物中,神经肽P物质(SP)循环水平的早期升高可能引发随后的有害炎症/氧化/亚硝化应激事件。证据还表明,中性内肽酶(NEP,neprilysin)是主要的SP降解酶,其活性可能在镁缺乏的后期受损,这可能会维持神经源性炎症反应。在这篇文章中,使用P物质受体阻断、NEP抑制和N-甲基-D-天冬氨酸(NMDA)受体阻断的实验结果证明了低镁血症、神经源性炎症、氧化应激和心脏功能障碍增强之间的联系。使用暴露于灌流液镁浓度急性降低的分离的灌流大鼠心脏模型提供了关于神经源性炎症的概念证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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