Biology of Sport
eISSN: 2083-1862
ISSN: 0860-021X
Biology of Sport
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2/2016
vol. 33
 
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abstract:

siRNA-induced silencing of hypoxia-inducible factor 3α (HIF3α) increases endurance capacity in rats

S Drozdovska
1
,
B Gavenauskas
2
,
T Drevytska
2
,
V Nosar
2
,
V Nagibin
2
,
I Mankovska
2
,
V Dosenko
2

  1. National University of Physical Education and Sport of Ukraine
  2. Department of Hypoxic Research, Department of General and Molecular Pathophysiology, Bogomoletz Institute of Physiology, National Academy of Science, Kiev, Ukraine
Biol Sport. 2016;33:99–106
Online publish date: 2016/04/25
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Molecular mechanisms of adaptation to exercise despite a large number of studies remain unclear. One of the crucial factors in this process is hypoxia inducible factor (HIF) that regulates transcription of many target genes encoding proteins that are implicated in molecular adaptation to hypoxia. Experiments were conducted on 24 adult male Fisher rats. Real-time PCR analysis was performed for quantitative evaluation of Hif3α, Igf1, Glut-4 and Pdk-1 in m. gastrocnemius, m. soleus, in lung and heart tissues. Mitochondrial respiratory function and electron microscopy were performed. Knockdown of Hif3α using siRNA increases time of swimming to exhaustion by 1.5 times. Level of mitochondrial NAD- and FAD-dependent oxidative pathways is decreased, however efficiency of phosphorylation is increased after Hif3α siRNA treatment. Expression of HIF target genes in muscles was not changed significantly, except for increasing of Pdk-1 expression in m. soleus by 2.1 times. More prominent changes were estimated in lung and heart: Igf1 gene expression was increased by 32.5 and 37.5 times correspondingly. Glut4 gene expression in lungs was increased from undetected level till 0.3 rel. units and by 84.2 times in heart. Level of Pdk1 gene expression was increased by 249.2 in lungs and by 35.1 times in hearts, correspondingly. Some destructive changes in muscle tissue were detected in animals with siRNA-inducing silencing of Hif3α.
keywords:

hypoxia-inducible factor 3α, endurance capacity, RNA interference, muscle, lung, heart

 
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