Popis: |
The responses of deoxyribonucleotide (dNTP), DNA, and protein synthesis systems in blood-forming organs of animals (dogs, mice) as well as changes in Fe(3+)-transferrin (Fe(3+)-TF) and Cu(2+)-ceruloplasmin (Cu(2+)-CP) pools in blood to gamma-irradiation and the administration of radioprotectors have been studied. It has been shown that changes in Fe(3+)-TF and Cu(2+)-CP pools in blood are indices of changes of body radioresistance and are reliably controlled by the EPR technique. An increase in the Fe(3+)-TF pool promotes the activation of synthesis of dNTP, DNA, and Fe(3+)-containing proteins, which are essential for repair efficiency during early post-irradiation time as well as for the development of compensatory and restorative reactions of cellular systems; i.e., they are responsible for body resistance to DNA-damaging factors. It is important that the intensity of responses depends on the initial state of the organism. Thus, dogs with initial individual characteristics of blood typical for "suppressed" or "activated" states had abnormally high responses to irradiation by low doses of 0.25 and 0.5 Gy. This fact is important for the estimation of consequences of prolonged low-dose irradiation for human population. It has been shown that radioprotectors, efficient in survival test activate the synthesis of dNTP, DNA, and proteins in organs. The intensity of dNTP synthesis and the time when dNTP pools get maximum values determine the efficiency of protectors and the time of irradiation after their administration. |