Acta Biomedica Scientifica (May 2016)

Mitochondrial dysfunction at atherosclerosis and myocardial infarction: molecular and cytochemical cell-markers

  • N. P. Sudakov,
  • I. V. Klimenkov,
  • A. I. Katyshev,
  • S. B. Nikiforov,
  • O. A. Goldberg,
  • B. G. Pushkaryov,
  • S. A. Lepekhova,
  • K. A. Apartsin,
  • Y. M. Konstantinov

DOI
https://doi.org/10.12737/article_590823a517c941.46556762
Journal volume & issue
Vol. 1, no. 3(2)
pp. 131 – 134

Abstract

Read online

We studied capabilities of confocal laser scanning microscopy in the analysis of lipid droplets volume and of quantity of functional mitochondria and reactive oxygen species production in liver cells for early diagnosis of cytochemical disturbances at dyslipoproteinemia (16 days of experiment). The results showed the increase of lipid droplets volume in hepatocytes, decrease of functional mitochondria and increase of reactive oxygen species production. We evaluated the potential of real-time PCR method in the analysis of mitochondrial DNA of blood plasma at early stages of dyslipoproteinemia and in experimental infarction. On the background of registered blood lipid metabolism disorders and structural and functional changes in liver cells, we determined the tendency to three-time increase in concentration of circulating cell-free mtDNA on the 16th day of dyslipoproteinemia as compared to the control data. We used a model of myocardial infarction to show statistically significant increase in the level of circulating cell-free blood mtDNA from 48 hours after adrenaline injection and we found that this level maintained up to 144 hours after adrenaline injection. Obtained data can serve as a basis for creation of technologies for diagnostic monitoring of atherosclerosis and myocardial infarction severity.

Keywords