Neurotrophic factors concentration in rat brain at the experimental coma

V A Kashuro; Кашуро Вадим Анатольевич; E G Batotsyrenova; Батоцыренова Екатерина Геннадьевна; N L Elaeva; Елаева Наталья Львовна; U N Savenko; Савенко Юлия Николаевна; N V Lapina; Лапина Наталья Вадимовна; V V Aksyonov; Аксёнов Владимир Владимирович

doi:10.17816/KMJ1922

Neurotrophic factors concentration in rat brain at the experimental coma

Authors: Kashuro VA¹, Batotsyrenova EG¹, Elaeva NL¹, Savenko UN², Lapina NV¹, Aksyonov VV³
Affiliations:
1. Institute of Toxicology, Saint Petersburg, Russia
2. Pavlov Institute of Physiology, Saint Petersburg, Russia
3. Military Medical Academy, Saint Petersburg, Russia
Issue: Vol 94, No 5 (2013)
Pages: 695-699
Section: Actual problems of biochemistry and laboratory diagnostics
URL: https://journals.rcsi.science/kazanmedj/article/view/1922
DOI: https://doi.org/10.17816/KMJ1922
ID: 1922

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Abstract

Aim. To study the changes of neurotrophic factors concentrations depending on stage of intoxication with deprivation substances (ethanol or sodium oxybutirate) in rats. Methods. Experiments were performed on male white laboratory rats. Control and experimental groups included 10 animals each. Half-lethal doses of a deprivation substance (ethanol or sodium oxybutirate) were introduced intraperitoneally 3, 6, 12, 24 and 72 hours before blood specimen collection. Neuron-specific enolase, S-100 protein, brain-derived neurotrophic factor, pigment epithelium-derived factor, glial fibrillary acidic protein serum levels were measured by enzyme immunoassay. Results. At single infusion of mean lethal dose of sodium oxybutyrate S-100 protein serum level significantly increased after 6 hours compared to control and stayed elevated during the first 24 hours. The levels of neurotrophic and neuroprotective factors also significantly increased 3 and 6 hours after the drug administration. The toxic dose of ethanol have significantly increased (over than 1.8 times compared to the controls) the concentration of protein S-100 in rats after 3 hours. The maximum increase in the protein S-100 level (by 2.6 times and over) was noted 12 hours after the toxicant administration. Glial fibrillar acidic protein concentration was 2.9 times higher compared to controls 3 hours after and 1.9 times higher 6 hours after higher the ethanol administration (р <0.05). The concentration of brain - derived neurotrophic factor has also increased from 3 to 12 hours after the toxicant administration, and was 2.1 to 2.4 times higher compared to intact animals. Conclusion. Studying of neurotrophic factors brain in plasma showed that the development of hypoxia, accompanying coma, leads to higher serum levels of S-100 protein, brain-derived neurotrophic factor and glial fibrillar acidic protein. The increase in the concentration of S-100 is a marker for the presence of brain damage. The observed increase of glial fibrillar acidic protein in experiments with ethanol may indicate its more severe brain tissue damage compared to sodium oxybutyrate.

Keywords

neurotrophic factors, sodium oxybutirate, ethanol

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Гомазков О.А. Старение мозга и нейротрофины.- М.: ИКАР, 2011. - 99 с.
Долго-Сабуров В.Б., Петров А.Н., Беляев В.А. О роли окислительного стресса в формировании цитотоксических эффектов этанола // Токсикол. вестн. - 2011 - №1. - С. 6-10.
Долго-Сабуров В.Б., Дагаев С.Г., Кубарская Л.Г., Соловьёва Н.Е. Роль системы генерации оксида азота в генезе нейролептического паркинсонизма // Доклады академии наук. - 2012. - №2. - С. 224-226.
Исаченкова О.А. Применение ГБО в лечении эндотоксикоза при черепно-мозговой травме // Бюлл. гипербар. биол. и мед. - 2000. - Т. 8., №3-4. - С. 12-15.
Кашуро В.А., Долго-Сабуров В.Б., Башарин В.А. и др. Некоторые механизмы нарушения биоэнергетики и оптимизация их подходов к фармакотерапии // Биомедицинский журнал Medline.ru. - Т. 11, №52. - С. 611-634. - http: //www.medline.ru/public/art/tom11/ art52.html (дата обращения: 29.06.2013).
Ромасенко М.В., Епифанова Н.М., Кукшина А.А. Динамика некоторых показателей иммунитета у больных с токсикогипоксической энцефалопатией под влиянием ГБО // Гипербарич. физиол. и мед. - 2003. - №1. - С. 11-17.
Herrmann M., Vos P., Wunderlich M.T. et al. Release of glial tissue specific proteins after acute stroke: a comparative analysis of serum concentrations of protein S-100B and glial fibrillary acidic protein // Stroke. - 2000. - Vol. 31. - P. 2670-2677.
Linstedt U., Meyer O., Kropp P. et al. Serum concentration of S-100 protein in assessment of cognitive dysfunction after general anesthesia in different types of surgery // Acta Anaesthesiol. Scand. - 2002. - Vol. 46. - P. 384-389.
Mattison M.P. Apoptosis in neurodegenerative disorders // Macmillan Magazines Ltd. - 2000. - Vol. 1.- P. 120-130
Schoerkhuber W., Kittler H., Sterz F. et al. Time course of serum neuron-specific enolase: a predictor of neurological out-come in patients resuscitated from cardiac arrest // Stroke. - 1999. - Vol. 30. - P. 1598-1603.

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Neurotrophic factors concentration in rat brain at the experimental coma

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Abstract

Keywords

Full Text

About the authors

V A Kashuro

E G Batotsyrenova

N L Elaeva

U N Savenko

N V Lapina

V V Aksyonov

References

Supplementary files