Effect of Treatment with Cryopreserved Fetal Neuronal Cells on Prooxidant-Antioxidant Balance in Rats with Experimental Cranio-Skeletal Injury

Authors

  • Roman M. Borys R&D Institute of Transport Medicine of Health Ministry of Ukraine, Odesa
  • Anatoliy I. Gozhenko R&D Institute of Transport Medicine of Health Ministry of Ukraine, Odesa
  • Anatoliy N. Goltsev Institute for Problems of Cryobiology and Cryomedicine of the National Academy of Sciences of Ukraine, Kharkov, Ukraine

DOI:

https://doi.org/10.15407/cryo24.01.067

Keywords:

cranio-skeletal injury, hemorrhage, lipid peroxidation, superoxide dismutase, catalase, ceruloplasmin, liver, cryopreserved fetal neuronal cells

Abstract

In the response to cranio-skeletal injury, complicated by bleeding, the content of primary and secondary products of lipid peroxidation (LPO) in liver homogenate significantly increased, and achieved a maximum level to the 14th day of the experiment and was significantly higher than the control level during 25 days of observation. Within the 3rd–14th days the accumulation of LPO products occured on the background of significant decrease of superoxide dismutase (SOD) activity, without any changes in catalase activity and compensatory increase of ceruloplasmin content to the 3rd day of the experiment. From 14th to 25th day following treatment with cryopreserved fetal neuronal cells we observed less pronounced deviations of lipid peroxidation in terms of content of primary LPO products (diene conjugates), and content of secondary LPO products (TBA-active) from the 3rd to 7th day. Catalase content was reduced through the 3rd–14th days of the experiment, increased by the 25th day; from the 14th day we observed a protective effect of cryopreserved fetal neuronal cells in terms of SOD activity. There was virtually no correcting effect found in blood serum ceruloplasmin content.


Probl Cryobiol Cryomed 2014; 24(1):67–74.

References

Chevary S., Chaba I., Sokey J. Role of superoxide dismutase in oxidative processes and its determination method in biological materials. Lab Delo 1985; (11): 678–681.

Gening T.P., Kseyko D.A. Indicators of lipid peroxidation and antioxidant protection in the system "blood serum - erythrocyte" under acute circulatory hypoxia. Uspekhi Sovr Estestvoznaniya 2004; (4): 17–20.

Goltsev A.N., Babenko N.N., Sirous M.A., Ostankova L.V. Experimental allergic encephalomyelitis as a model pathology of study of corrective activity of embryonic nerve cells. Alergologiya ta Imunologiya 2005; (3): 76–77.

Goltsev A.N., Porozhan Ye.A., Babenko N.N., Ostankov M.V. Apoptotic processes in thymus and brain during experimental allergic encephalomyelitis development before and after treatment with fetal neural cells. Patologiya 2001; 8(2): 69–72.

Goltsev A.M., Porozhan E.O., Babenko N.M., Ostankov M.V. Cryopreservation of fetal neuronal cells suspension. Patent of Ukraine N59206, IPC A01N1/02.

Kolb V.G., Kamyshnikov V.S. Reference book on Clinical Chemistry. – Minsk: Belarus; 1982.

Korolyuk M.A., Ivanova L.I., Mayorova I.G., Tokarev V.E. Catalase activity examining method. Lab Delo 1988; (1): 16–19.

Lebedinets D.V., Ovsyannikov S.Ye., Lebedinets V.V. et al. Therapy with fetal neuronal cells in acute period of experimental ischemic stroke (antioxidative effect). Problems of Cryobiology 2010; 20(3): 65–68.

Petukhova A.V., Ustyantseva I.M., Agajanyan V.V. Content of lipoproteins and lipid peroxidation products in patients with acute polytrauma. Polytravma 2006; (3): 65–68.

Rokytsky P.F. Biological statistics. Minsk: Vysheyshaya shkola; 1973.

Stalnaya I.D. Diene conjugation method for determining the unsaturated higher fatty acids. In: Modern methods in biochemistry. Moscow: Meditsyna; 1977.

Qureshi M. A. Polytrauma epidemiology & prognosis versus traumas core. Professional Med J 2006; 13(1): 57–62.

Yamamoto Y., Niki E., Eguchi J. et al. Oxidation of biological membranes and its inhibition. Free radical chain oxidation of erythrocyte ghost membranes by oxygen. Biochim Biophys Acta 1985; 819(1): 29–36.

CrossRef

Yelsky V.N., Zyablytsev S.V. Modeling of cranio-cerebral injury. Donetsk: Novyy Mir; 2008.

Zapadnyuk I.P., Zapadnyuk V.I., Zakharia E.A., Zapadnyuk B.V. Laboratory animals. Kiev: Vyscha shkola; 1983.

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Published

2014-03-25

How to Cite

Borys, R. M., Gozhenko, A. I., & Goltsev, A. N. (2014). Effect of Treatment with Cryopreserved Fetal Neuronal Cells on Prooxidant-Antioxidant Balance in Rats with Experimental Cranio-Skeletal Injury. Problems of Cryobiology and Cryomedicine, 24(1), 67–74. https://doi.org/10.15407/cryo24.01.067

Issue

Section

Cryomedicine, Clinical and Experimental Transplantology