Эффекты разных концентраций бактериального меланина на электрическую активность нейронов коры мозга при раздражении нервов задней конечности у крыс
Аннотация
Об авторах
Т. Р. ПетросянРоссия
В. А. Чавушян
Россия
А. С. Тер-Маркосян
Россия
А. С. Овсепян
Россия
Список литературы
1. Faucheux B.A., Martin M.E., Beaumont C., Hauw J.J., Agid Y., Hirsh E.C. Neuromelanin accociated redox-active iron is increased in the substantia nigra of patients with Parkinson`s disease // J. Neurochem. 2003. N. 5. P. 1142-1148.
2. Froc D.J., Capman C.A., Trepel C., Racine R.J. Long-term depression and depotentation in the sensorimotor cortex of reely moving rat // J. Neurosci. N. 20 (1). P. 438-445.
3. Galoyan A.A., Sarkissian J.S., Kipriyan T.K., Sarkissian E.J., Chavushyan E.A., Sulkhanyan R.M., Meliksetyan I.E., Abrahamyan S.S., Grigorian Y.Kh., Avetisyan Z.A., Otieva N.A. Protective effect of a new hypothalamic peptide against cobra venom and trauma induced neuronal injury // Neurochem. Res. 2001. N. 26. P. 1023-1038.
4. Galoyan A.A., Sarkissian J.S., Kipriyan T.K., Sarkissian E.J., Grigorian Y.Kh., Sulkhanyan R.M., Khachatryan T.S. Comparison of the protection against neuronal injury by hypothalamic peptides and by dexamethasone // Neurochem. Res. 2000. N. 25. P. 1567-1578.
5. Gao X.B., van den Pol A.N. Melanin concentrating hormone depresses synaptic activity of glutamate and GABA neurons from rat lateral hypothalamus // J. Physiol. 2001. N. 533 (Pt 1). P. 237-252.
6. Gerren R.A., Weinberger N.M. Long term potentiation in the magnocellular medial geniculate nucleus of anesthetized cat // Brain Res. 1983. N, 265. P. 138-142.
7. Gevorkyan O.V. Neuronal activity of sensorimotor cortex on the mesencephalic reticular formation stimulation // Biol. J. of Armenia. 1987. V. 40. N. 12. P. 993-997.
8. Hicks S.P., D`Amato C.I. Locating corticospinal neurons by retrograde axonal transport of horseradish peroxidase // Exp. Neurol. 1977. N. 56. P. 410-420.
9. Komatsu Y., Toyama K., Maeda J., Sakaguchi H. Long term potentiation investigated in a slice preparation of striate cortex of young kittens // Neurosci. Lett. 1981. N. 26. P. 269-274.
10. Monfils M.H., Teskey G.C. Induction of long-term depression is associated with decreased dendritic length and spine density in layers III and V of sensomotor neocortex // Synapse. 2004. N. 2. P. 141-121.
11. Monfils M.H., Teskey G.C. Skilled-learning-induced potentiation in rat sensorimotor cortex: a transient form of behavioral long-term potentiation // Neuroscience. 2004. N. 125 (2). P. 329-336.
12. Petrosyan T.R., Chavushyan V.A., Hovsepyan A.S. Bacterial melanin increases electrical activity of neurons in Substantia Nigra pars compacta // J. of Neural. Transmission. Springer. 2014. N. 121. P. 259-265.
13. Varas M., Perez M., Mouzon M.E., de Barioglio S.R. Melanin concentrating hormone, hippocampal nitric oxide levels and memory retention // Peptides. 2002. N. 12. P. 2213-2221.
14. Wilczok T., Stepien K., Dzierzega-Lecznar A., Zajdel A., Wilczok A. Model neuromelanins as antioxidative agents during lipid peroxidation // Neurotox. Res. 1999. N. 2. P. 141-147.
Рецензия
Для цитирования:
Петросян Т.Р., Чавушян В.А., Тер-Маркосян А.С., Овсепян А.С. Эффекты разных концентраций бактериального меланина на электрическую активность нейронов коры мозга при раздражении нервов задней конечности у крыс. БИОМЕДИЦИНА. 2015;1(3):52-61.
For citation:
Petrosyan T.R., Chavushyan V.A., Ter-Markosyan A.S., Hovsepian A.S. Effects of different concentrations of bacterial melanin on the electrical activity of neurons in the cerebral cortex in response to stimulation of the rat hindlimb nerves. Journal Biomed. 2015;1(3):52-61. (In Russ.)