[CA²⁺ ACCUMULATION IN ISOLATED RAT HEART MITOCHONDRIA UNDER MAINTENANCE OF MITOCHONDRIAL POTENTIAL].

A. Y. Budko, N. Strutynska, I. Y. Okhay, O. M. Semenykhina, V. Sagach
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引用次数: 3

Abstract

It is known that mitochondria can accumulate calcium, which regulates energy metabolism and cell death. About 90% of energy of cardiomyocytes is synthesized in mitochondria. Heart cells are also affected by the rapid changes in the Ca²⁺ concentration in the cytoplasm. Therefore, mitochondrial Ca²⁺-accumulation ability is crucial. The aim of our work was to study the accumulation of Ca²⁺ in isolated rat heart mitochondria in the presence of mitochondrial potential and different extramitochondrial Ca²⁺ concentrations. Isolated organelles were loaded with fluorescent dye Fluo-4 AM (2.5 μmol/l) at a temperature of 26°C for 30 min. It has been revealed that under these conditions high mitochondrial potential was maintained sufficiently, which is necessary for the functioning of the calcium transporting system in organelles. We established that mitochondria have a limited ability to store ionized calcium, as addition of Ca²⁺ ion in concentrations of 10, 20, 50 µmol/l ensures a certain level of accumulation in organelles with further fluorescent signal growth cessation. Addition of 100 µmol/Ca²⁺ to isolated mitochondria resulted in a significant increase in fluorescence intensity (46% in the fifth minute, compared to the fluorescence when 20 µmol/l Ca²⁺ was added) and likely to activation of cation release. It was shown that ruthenium red (10⁻⁵ mol/l), an inhibitor of Ca²⁺-uniporter, prevented accumulation of calcium ions in organelles by 89%, in the presence of 100 µmol/ Ca²⁺. It was clearly seen that heart mitochondria require Mg²⁺-ATP complex (3 mmol/l) to accumulate Ca²⁺, likely to maintain the inner membrane potential, activity of Ca²⁺ uniporter and energetic processes in organelles. Thus, the process of Ca²⁺ accumulation in rat heart mitochondria requires the maintenance of mitochondrial potential, activity of Ca²⁺-uniporter, depends on extramitochondrial Ca²⁺ concentration and presence of Mg²⁺-ATP complex.
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[ca2 +在线粒体电位维持下在离体大鼠心脏线粒体中的积累]。
众所周知,线粒体可以积累钙,从而调节能量代谢和细胞死亡。心肌细胞大约90%的能量是在线粒体中合成的。心脏细胞也受到细胞质中Ca 2 +浓度快速变化的影响。因此,线粒体ca2 +的积累能力至关重要。我们的工作目的是研究在线粒体电位和不同线粒体外Ca 2 +浓度存在的情况下,Ca 2 +在离体大鼠心脏线粒体中的积累。用荧光染料Fluo-4 AM (2.5 μmol/l)在26°C的温度下处理30 min,结果表明,在这种条件下,线粒体能保持高电位,这是细胞器内钙转运系统正常运作所必需的。我们发现线粒体储存离子钙的能力有限,因为添加浓度为10、20、50µmol/l的Ca 2 +离子可以确保在细胞器中积累一定水平的钙,并进一步停止荧光信号的生长。在分离的线粒体中添加100µmol/Ca 2 +导致荧光强度显著增加(与添加20µmol/l Ca 2 +时的荧光相比,第5分钟荧光强度增加46%),并且可能激活阳离子释放。结果表明,在100µmol/ Ca²⁺存在的情况下,钌红(10⁻- 5 mol/l)可以阻止钙离子在细胞器中积累89%。钌红是Ca²⁺的一种单载体抑制剂。可以清楚地看到,心脏线粒体需要Mg 2 + -ATP复合物(3mmol /l)来积累Ca 2 +,这可能维持内膜电位、Ca 2 +单组分的活性和细胞器内的能量过程。因此,Ca 2 +在大鼠心脏线粒体中积累的过程需要线粒体电位的维持,Ca 2 +的活性取决于线粒体外Ca 2 +的浓度和Mg 2 + -ATP复合物的存在。
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