急性鱼藤酮诱导的线粒体复合体I功能障碍导致的能量代谢变化——一种体内大型动物模型

Changes in energy metabolism due to acute rotenone-induced mitochondrial complex I dysfunction - An in vivo large animal model.

作者信息

Karlsson Michael, Ehinger Johannes K, Piel Sarah, Sjövall Fredrik, Henriksnäs Johanna, Höglund Urban, Hansson Magnus J, Elmér Eskil

机构信息

Mitochondrial Medicine, Department of Clinical Sciences, Lund University, BMC A13, SE-221 84 Lund, Sweden; NeuroVive Pharmaceutical AB, Medicon Village, Scheelevägen 2, SE-233 81 Lund, Sweden.

Mitochondrial Medicine, Department of Clinical Sciences, Lund University, BMC A13, SE-221 84 Lund, Sweden.

出版信息

Mitochondrion. 2016 Nov;31:56-62. doi: 10.1016/j.mito.2016.10.003. Epub 2016 Oct 18.

DOI:10.1016/j.mito.2016.10.003

PMID:27769952

Abstract

Metabolic crisis is a clinical condition primarily affecting patients with inherent mitochondrial dysfunction in situations of augmented energy demand. To model this, ten pigs received an infusion of rotenone, a mitochondrial complex I inhibitor, or vehicle. Clinical parameters, blood gases, continuous indirect calorimetry, in vivo muscle oxygen tension, ex vivo mitochondrial respiration and metabolomics were assessed. Rotenone induced a progressive increase in blood lactate which was paralleled by an increase in oxygen tension in venous blood and skeletal muscle. There was an initial decrease in whole body oxygen utilization, and there was a trend towards inhibited mitochondrial respiration in platelets. While levels of succinate were decreased, other intermediates of glycolysis and the TCA cycle were increased. This model may be suited for evaluating pharmaceutical interventions aimed at counteracting metabolic changes due to complex I dysfunction.

摘要

代谢危机是一种临床病症，主要影响那些在能量需求增加情况下存在先天性线粒体功能障碍的患者。为模拟这种情况，十头猪接受了鱼藤酮（一种线粒体复合体I抑制剂）或赋形剂的输注。评估了临床参数、血气、连续间接测热法、体内肌肉氧张力、离体线粒体呼吸和代谢组学。鱼藤酮导致血乳酸逐渐增加，同时静脉血和骨骼肌中的氧张力也增加。全身氧利用率最初下降，血小板中线粒体呼吸有受抑制的趋势。虽然琥珀酸水平降低，但糖酵解和三羧酸循环的其他中间产物增加。该模型可能适用于评估旨在对抗因复合体I功能障碍引起的代谢变化的药物干预措施。

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急性鱼藤酮诱导的线粒体复合体I功能障碍导致的能量代谢变化——一种体内大型动物模型

Changes in energy metabolism due to acute rotenone-induced mitochondrial complex I dysfunction - An in vivo large animal model.

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