Abstract
Using electron paramagnetic resonance, the dose-dependence effect of dopamine on methemoglobin formation in erythrocytes of patients with Parkinson’s disease under the activation of oxidative stress induced by acrolein and the possibilities for the correction of this pathological process using carnosine in vitro experiments have been examined. It was shown that incubation of erythrocytes with 1.5 mM dopamine did not change the methemoglobin content, while incubation with 15 mM dopamine caused a two fold increase in the methemoglobin content compared to its initial level; 10 μM acrolein increased methemoglobin formation threefold. Administration of 15 mM dopamine and, after 1 h, 10 μM acrolein to the incubation system increased methemoglobin formation tenfold compared to its initial level. Preincubation of erythrocytes with 5 mM carnosine followed by acrolein addition prevented the increase in the methemoglobin content, while carnosine had no effect on methemoglobin formation induced by dopamine.
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Abbreviations
- PD:
-
Parkinson’s disease
- OS:
-
oxidative stress
- DOPA:
-
L-dihydroxyphenylalanine
- ROS:
-
reactive oxygen species
- MetHb:
-
methemoglobin
- EPR:
-
electron paramagnetic resonance
References
G. H. Kim, J. E. Kim, S. J. Rhie, and S. Yoon, Exp. Neurobiol. 24 (4), 325 (2015).
J. Blesa, I. Trigo-Damas, A. Quiroga-Varela, et al., Front Neuroanat. 9, 91 (2015).
O. M. Buneeva and A. E. Medvedev, Biomed. Khim. 57 (3), 246 (2011).
O. Hwang, Exp. Neurobiol. 22 (1), 11 (2013).
K. Jodko-Podrecka and G. Litwinienko, Postepy Biochem. 56 (3), 248 (2010).
M. Asanuma, I. Miyazaki, and N. Ogawa, Redox. Biol. 2, 82 (2013).
K. Jodko-Podrecka and G. Litwinienko, Free Radic. Biol. 83, 1 (2015).
S. N. Illarioshkin, I. A. Zagorovskaya, I. A. Ivanova-Smolenskaya, and E. D. Markova, Nevrol. Zh. 5, 47 (2002).
Z. A. Suslina, S. N. Illarioshkin, and M. A. Piradov, Annaly Klin. Eksp. Nevrol. 1, 5 (2007).
S. N. Illarioshkin, M. I. Shadrina, G. Kh. Bagyeva, et al., Annaly Klin. Eksp. Nevrol. 1, 23 (2007).
V. P. Reutov, E. G. Sorokina, V. E. Okhotin, and N. S. Kositsyn, Cyclic Transformations of Nitric Oxide in a Mammalian Body (Nauka, Moscow, 1998) [in Russian].
L. Mohorovic, A. M. Lavezzi, S. Stifter, et al., Adv. Biosci. Biotechnol. 5 (1), 12 (2014). doi doi 10.4236/abb.2014.51003
M. S. Medeiros, A. Schumacher-Schuh, A. M. Cardoso, et al., PLOS ONE 11 (1): e0146129 (2016).
K. Jomova, D. Vondrakova, M. Lawson, et al., Mol. Cell Biochem. 345 (1–2), 91 (2010).
D. Jiang, S. Shi, L. Zhang, et al., ACS Chem. Neurosci. 4 (9), 1305 (2013).
G. M. T. Hare, A. K. Y. Tsui, J. H. Crawford, and R. P. Patel, Redox Biol. 1 (10), 65 (2013).
M. G. Makletsova, G. T. Rikhireva, V. V. Poleshchuk, et al., in (Proc. 3rd Natl. Congress on Parkinson’s Disease and Locomotor Disorders (Moscow, 2014), p. 336 [in Russian].
L. Ciccoli, C. Signorini, C. Alessandrini, et al., Exp. Mol. Pathol. 60 (2), 108 (1994).
A. Moghe, S. Ghare, B. Lamoreau, et al., Toxicol. Sci. 143 (2), 242 (2015).
M. Shamoto-Nagai, W. Maruyama, Y. Hashizume, et al., J. Neural. Transm. 114 (12), 1559 (2007).
T. N. Fedorova, G. Kh. Bagyeva, I. S. Dobrotvorskaya, et al., Exkp. Klin. Farmakol. 75 (6), 23 (2012).
M. K. Pulatova, G. T. Rikhireva, and Z. V. Kuropteva, Electron Paramagnetic Resonance in Molecular Radiobiology (Energoatomizdat, Moscow, 1989) [in Russian].
Z. Xie, S. P. Baba, B. R. Sweeney, and O. A. Barski, Chem. Biol. Interact. 202 (1–3), 288 (2013).
Y. Segura-Agnilar, I. Paris, P. Manoz, et al., J. Neurochem. 129, 898 (2014).
C. Voshavar, M. Shah, L. Xu, and A. K. Dutta, Neurotox. Res. 28 (4), 302 (2015).
C. B. Pocernich, A. L. Cardin, C. L. Racine, et al., Neurochem. Int. 39 (2), 141 (2001).
M. S. E. Ahmed, H. Langer, M. Abed, et al., Kidney Blood Press. R. 37 (2–3), 158 (2013).
T. N. Dang, M. Arseneault, V. Murthy, and C. Ramassamy, Curr. Mol. Pharmacol. 3 (2), 66 (2010).
A. A. Bolgtrev, Biochemistry (Moscow) 77 (4), 313 (2012).
M. Carini, G. Aldini, G. Beretta, et al., J. Mass Spectrom. 38 (9), 996 (2003).
G. Aldini, R. M. Facino, G. Beretta, and M. Carini, Biofactors 24, 77 (2005).
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Original Russian Text © M.G. Makletsova, T.N. Fedorova, V.V. Poleschuk, G.T. Rikhireva, 2017, published in Biofizika, 2017, Vol. 62, No. 2, pp. 319–324.
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Makletsova, M.G., Fedorova, T.N., Poleschuk, V.V. et al. The effect of dopamine on in vitro methemoglobin formation in erythrocytes of patients with Parkinson’s disease under oxidative stress. BIOPHYSICS 62, 247–251 (2017). https://doi.org/10.1134/S0006350917020154
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DOI: https://doi.org/10.1134/S0006350917020154