Effect of combined use of melatonin and diethyldithiocarbamate on the N1E-115 cell line (a clone of cells from mouse neuroblastoma C-1300)

S. N Myakisheva; Мякишева С. Н; Y. L Baburina; Бабурина Ю. Л; M. I Kobyakova; Кобякова М. И; R. R Krestinin; Крестинин Р. Р; L. D Sotnikova; Сотникова Л. Д; O. V Krestinina; Крестинина О. В

doi:10.31857/S0006302923050186

Effect of combined use of melatonin and diethyldithiocarbamate on the N1E-115 cell line (a clone of cells from mouse neuroblastoma C-1300)

Authors: Myakisheva S.N¹, Baburina Y.L², Kobyakova M.I², Krestinin R.R², Sotnikova L.D², Krestinina O.V²
Affiliations:
1. Institute of Cell Biophysics, Russian Academy of Sciences
2. Institute of Theoretical and Experimental Biophysics, Russian Academy of Sciences
Issue: Vol 68, No 5 (2023)
Pages: 973-981
Section: Articles
URL: https://journals.rcsi.science/0006-3029/article/view/233471
DOI: https://doi.org/10.31857/S0006302923050186
EDN: https://elibrary.ru/NAZGQY
ID: 233471

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Abstract

A study has been made on the effects of sodium diethyldithiocarbamate and melatonin and their interaction on proliferative activity, the variation in cytosolic Ca²⁺, membrane potential and reactive oxygen species production in the neuroblastoma N1E-115 cell line (a clone of cells from mouse neuroblastoma C-1300). This study showed that combined use of diethyldithiocarbamates and melatonin inhibited proliferation and enhanced cell differentiation. At the same time, the content of Bcl-2 decreased, while the content of Bax increased, that were likely to trigger an apoptotic cascade. However, the use of these two drugs in combination did not enhance the observed effects. Therefore, this study suggests that the mechanisms by which diethyldithiocarbamates and melatonin act are apparently different.

Keywords

Sodium diethyldithiocarbamate, melatonin, proliferation, differentiation, subunits of mitochondrial respiratory chain complexes, Production of reactive oxygen species, mitochondrial membrane potential, cytosolic calcium

References

A. C. Matias, T. M. Manieri, S. S. Cipriano, et al., Toxicol. In Vitro, 27 (1), 349 (2013).
C. I. Nobel, M. Kimland, B. Lind, et al., J. Biol. Chem., 270 (44), 26202 (1995).
O. M. Viquez, H. L. Valentine, K. Amarnath, et al., Toxicol. Appl. Pharmacol., 229 (1), 77 (2008).
C. Liu, Z. Liu, Y. Fang, et al., Environ.Int., 171, 107696 (2023).
M. Solovieva, Y. Shatalin, R. Fadeev, et al., Biomolecules, 10 (1), 69 (2020).
A. Menendez-Pelaez, R. Reiter, J. Pineal Res., 15 (2), 59 (1993).
S. Cos, R. Verduga, C. Fernandez-Viadero, et al., Neurosci. Lett., 216 (2), 113 (1996).
Y. Baburina, A. Lomovsky, and O. Krestinina, J. Pers. Med., 11 (4), N274 (2021).
A. Lomovsky, Y. Baburina, I. Odinokova, et al., Antioxidants (Basel), 9 (11), (2020).
A. I. Lomovsky, Y. L. Baburina, R. S. Fadeev, et al., Biochemistry (Moscow), 88 (1), 73 (2023).
А. И. Ломовский, Ю. Л. Бабурина, М. И. Кобякова и др., Биол. мембраны, 37 (2), 103 (2020).
О. В. Крестинина, С. Н. Мякишева, Ю. Л. Бабурина и др., Нейрохимия, 34 (1), 41 (2017).
V. Matranga, D. Oliva, S. Sciarrino, et al., Cell. Mol. Neurobiol., 13 (2), 137 (1993).
M. E. Solovieva, Y. V. Shatalin, V. V. Solovyev, et al., Redox Biol., 20, 28 (2019).
I. Ali, W. A. Wani, K. Saleem, and M.-F. Hseih, Polyhedron, 56, 134 (2013).
M. Altaf, M. Monim-Ul-Mehboob, A. N. Kawde, et al., Oncotarget, 8 (1), 490 (2017).
W. H. Talib, A. R. Alsayed, A. Abuawad, et al., Molecules, 26 (9), 2506 (2021).
T. Amano, E. Richelson, and M. Nirenberg, Proc. Natl. Acad. Sci. USA, 69 (1), 258 (1972).
W. J. Lee, L. C. Chen, J. H. Lin, at al., Cancer Medicine, 8 (10), 4821 (2019).
C. Giorgi, A. Romagnoli, P. Pinton, and R. Rizzuto, Curr. Mol. Med., 8 (2), 119 (2008).
I. Kruman, Q. Guo, and M. P. Mattson, J. Neurosci. Res., 51 (3), 293 (1998).
E. N. Maciel, A. E. Vercesi, and R. F. Castilho, J. Neurochem., 79 (6), 1237 (2001).
P. Pinton, C. Giorgi, R. Siviero, et al., Oncogene, 27 (50), 6407 (2008).
D. Lanoix, A. A. Lacasse, R. J. Reiter, and C. Vaillancourt, Mol. Cell. Endocrinol., 348 (1), 1 (2012).
F. Radogna, L. Paternoster, M. De Nicola, et al., Toxicol. Appl. Pharmacol., 239 (1), 37 (2009).
A. P. Batista, T. G. da Silva, A. Teixeira, et al., Life Sci., 93 (23), 882 (2013).
A. P. Batista, T. G. da Silva, A. A. Teixeira, et al., Micron (Oxford) 59, 17 (2014).
I. Bejarano, J. Espino, A. M. Marchena, et al., Mol. Cell. Biochem., 353 (1-2), 167 (2011).
A. Lemarie, S. Grimm, Oncogene. 30 (38), 3985 (2011).
G. Lenaz and M. L. Genova, Antioxid. Redox Signal., 12 (8), 961 (2010).
H. Pelicano, L. Feng, Y. Zhou, et al., J. Biol. Chem., 278 (39), 37832 (2003).
J. M. Hardwick and L. Soane, Cold Spring Harb. Perspect. Biol., 5 (2), a008722 (2013).

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Effect of combined use of melatonin and diethyldithiocarbamate on the N1E-115 cell line (a clone of cells from mouse neuroblastoma C-1300)

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Abstract

Keywords

About the authors

References

Supplementary files