丙酮酸在离体灌注大鼠心脏中的代谢区室化
Metabolic compartmentation of pyruvate in the isolated perfused rat heart.
作者信息
Peuhkurinen K J, Hiltunen J K, Hassinen I E
出版信息
Biochem J. 1983 Jan 15;210(1):193-8. doi: 10.1042/bj2100193.
Abstract
- Prompted by the finding of markedly differing specific radioactivities of tissue alanine and lactate in isolated rat hearts perfused with [1-14C]pyruvate, a more detailed study on the cytosolic subcompartmentalization of pyruvate was undertaken. Isolated rat hearts were perfused by the once-through Langendorff technique under metabolic and isotopic steady-state conditions but with various routes of radioactive label influx, and the specific radioactivities of pyruvate, lactate and alanine were determined. An enzymic method was devised to determine the specific radioactivity of C-1 of pyruvate. 2. Label introduction as [1-14C]pyruvate resulted in a higher specific radioactivity of tissue alanine and mitochondrial pyruvate than of lactate, and a higher specific radioactivity of perfusate lactate than of tissue lactate. Label introduction as [1-14C]lactate resulted in a roughly similar isotope dilution into the tissue and perfusate pyruvate and the tissue alanine. Label introduction as [3,4-14C]glucose resulted in the same specific radioactivity of tissue lactate and alanine and a roughly similar specific radioactivity of mitochondrial pyruvate. 3. The results can be reconciled with a metabolic model containing two cytosolic functional pyruvate pools. One pool (I) communicates more closely with the glycolytic system, whereas the other (II) communicates with extracellular pyruvate and intracellular alanine. Pool II is in close connection with intramitochondrial pyruvate. The physical identity of the cytosolic subcompartments of pyruvate is discussed.
摘要
- 在灌注[1-¹⁴C]丙酮酸的离体大鼠心脏中,发现组织丙氨酸和乳酸的比放射性存在显著差异,由此促使我们对丙酮酸在细胞溶质中的亚区室化进行更详细的研究。采用单次通过的Langendorff技术,在代谢和同位素稳态条件下,但通过不同的放射性标记流入途径,对离体大鼠心脏进行灌注,并测定丙酮酸、乳酸和丙氨酸的比放射性。设计了一种酶法来测定丙酮酸C-1的比放射性。2. 以[1-¹⁴C]丙酮酸形式引入标记,导致组织丙氨酸和线粒体丙酮酸的比放射性高于乳酸,灌注液乳酸的比放射性高于组织乳酸。以[1-¹⁴C]乳酸形式引入标记,导致组织和灌注液丙酮酸以及组织丙氨酸中出现大致相似的同位素稀释。以[3,4-¹⁴C]葡萄糖形式引入标记,导致组织乳酸和丙氨酸具有相同的比放射性,线粒体丙酮酸的比放射性大致相似。3. 这些结果可以与一个包含两个细胞溶质功能性丙酮酸池的代谢模型相协调。一个池(I)与糖酵解系统的联系更为紧密,而另一个池(II)与细胞外丙酮酸和细胞内丙氨酸相互作用。池II与线粒体内丙酮酸密切相关。文中讨论了丙酮酸细胞溶质亚区室的物理特性。
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