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Том 44, № 10 (2025)

Determination of the content of FAD cofactor and NAD(P)H-oxidase complexes in mouse splenocytes and Lewis carcinoma cells under conditions of apoptosis by confocal microscopy method

Мұқаба

Авторлар: Mil E.M.¹, Albantova A.A.¹, Matienko L.I.¹, Goloshchapov A.N.¹, Korovin M.A.¹, Kuvyrkova V.V.¹
Мекемелер:
1. Emanuel Institute of Biochemical Physics Russian Academy of Sciences
Шығарылым: Том 43, № 11 (2024)
Беттер: 47-53
Бөлім: Chemical physics of biological processes
URL: https://ruspoj.com/0207-401X/article/view/680977
DOI: https://doi.org/10.31857/S0207401X24110061
ID: 680977

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Аннотация
Толық мәтін
Авторлар туралы
Әдебиет тізімі
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Статистика

Аннотация

In this work, using fluorescence and confocal microscopy, we studied the content of the cofactor FAD and enzymatic NAD(P)H-oxidase complexes (with fluorophores AnnexinV-FITC, 7-AAD (7-aminoactinomycin D), EtBr) under conditions of apoptosis caused by sodium anphene with hydrogen peroxide in healthy mouse splenocytes and Lewis carcinoma tumor cells. The use of fluorescence microscopy allows observing and quantifying the apoptotic effect of sodium anphen and hydrogen peroxide, and visualization of metabolic changes in the cell, including increased fluorescence of FAD in tumor cells and NAD(P)H-oxidase complexes in splenocytes. The data obtained indicate the possibility of using sodium anphen in combination with hydrogen peroxide as an antitumor drug acting on certain types of cells.

Негізгі сөздер

sodium anphen, Lewis Carcinoma cells, NAD(P)H, FAD

Толық мәтін

Рұқсат жабық

Авторлар туралы

E. Mil

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Email: albantovaaa@mail.ru
Ресей, Moscow

A. Albantova

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Хат алмасуға жауапты Автор.
Email: albantovaaa@mail.ru
Ресей, Moscow

L. Matienko

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Email: albantovaaa@mail.ru
Ресей, Moscow

A. Goloshchapov

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Email: albantovaaa@mail.ru
Ресей, Moscow

M. Korovin

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Email: albantovaaa@mail.ru
Ресей, Moscow

V. Kuvyrkova

Emanuel Institute of Biochemical Physics Russian Academy of Sciences

Email: albantovaaa@mail.ru
Ресей, Moscow

Әдебиет тізімі

N.V. Beloborodova, General Reanimatology 15, 62 (2019); doi::10.15360/1813-9779-2019-6-62-79
V.I. Binyukov, E.M. Mil, L.I. Matienko, et al., Micro (MDPI) 3, 382 (2023); htpp//doi.org/10.3390/micro3020026
L.I. Matienko, E.M. Mil, V.I Binyukov, Russ. J. Phys. Chem. B 14, 559 (2020); https://doi.org/10.1134/S1990793120030227
J.R. Mcintosh, J. Cell Biol., 153, 25 (2001); https://doi.org/10.1083/jcb.153.6.F25
N.S. Zakharov, A.N. Popova, Yu.A. Zakharov, et al., Russ. J. Phys. Chem. B 16, 780 (2022); doi::10.1134/s1990793122040170
V.A. Tkachuk, P.A. Tyurin-Kuzmin, V.V. Belousov, et al., Biological membranes, 29, 21 (2012) (in Russian).
I.F. Rusina, T.L. Veprintsev, R.F. Vasiliev, Russ. J. Phys. Chem. B 16, 50 (2022); https://doi.org/10.1134/S1990793122010274
N.Yu. Gerasimov, O.V. Nevrova, I.V. Zhigacheva, et al., Russ. J. Phys. Chem. B 17, 135 (2023); doi::10.1134/S1990793123010049
R.A. Sadykov, S.L. Khursan, A.A. Sukhanov, et al., Russ. J. Phys. Chem. B 17, 1251 (2023); doi::10.1134/S1990793123060209
E.M. Mil, V.I. Binyukov, V.N. Erokhin, et al., Cytology 62, 503 (2020) (in Russian); doi::10.31857/S0041377120070032
V.N. Erokhin, A.V. Krementsova, V.A. Semenov, et al., Bull. Russ. Acad. Sci., Biochemistry No 5, 583 (2020) (in Russian).
E.M. Mil, V.I. Binyukov, V.N. Erokhin, Dokl. Chem. 482, 598 (2018) (in Russian).
W. Becker, J. Microscopy 247, 119 (2012); doi::10.1111/j.1365-2818.2012.03618.x
I.N. Druzhkova, M.M. Lukina, V.V. Dudenkova, et al., Cell Cycle 15, 1257 (2016); doi::10.1080/15384101.2016.1160974
N.J. Clifton, Methods in molecular biology 412, 273 (2007); doi::10.1007/978-1-59745-467-4_18
K. Rokutan, T. Kawahara, Y. Kuwano, et al., Antioxid. Redox. Signal 8, 1573 (2006); doi::10.1089/ars.2006.8.1573
M.W. Ma, Wang J., Zhang Q., et al., Molecular Neurodegeneration No 12, 7 (2017); https://doi.org/10.1186/s13024-017-0150-7
M.M. Lukina, V.V. Dudenkova, N.I. Ignatova, et al., Biochim. Biophys. Acta - Genetic Subj. 1862, 1693 (2018); doi::10.1016/j.bbagen.2018.04.021
А.S. Babkina, General Reanimatology 15, 50 (2019); https://doi.org/10.15360/1813-9779-2019-6-50-61
A. Vermot, I. Petit-Härtlein, S.M.E. Smith, et al., Antioxidants (Basel) 10, 890 (2021); doi::10.3390/antiox10060890
K. Bedard, K.H. Krause, Physiol. Rev. 87, 245 (2007); doi::10.1152/physrev.00044.2005

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1. JATS XML

2. Fig. 1. FAD fluorescence in mouse splenocytes: single (left) and multiple fluorescence (right) in cells during apoptosis.

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3. Fig. 2. Micrographs of splenocytes during apoptosis induced by sodium anfen (10-4 M) and a 6-fold magnified image of the cell (granules of NAD(P)H-oxidase enzyme complexes NOX are visible on the membrane). Confocal microscope with 100x magnification (fluorophore – Annexin V-FITC).

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4. Fig. 3. Diagram of the content of apoptotic cells in the splenocyte culture (fluorophore – AnnexinV-FITC) – 1, the number of non-viable cells (fluorophore EtBr) – 2. Changes in the cell content under the influence of hydrogen peroxide (5 μM), sodium anfen (10-4 M), and their combined effect.

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5. Fig. 4. Percentage of cells with FAD-1 fluorescence and immunofluorescence of granules of NAD(P)H-oxidase complexes-2 in a splenocyte culture under the influence of hydrogen peroxide (5 μM), sodium anfen (10-4 M) and their combined effect.

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6. Fig. 5. Micrographs of a neutrophil in a splenocyte culture, which is in the stage of NETosis – the release of a DNA network surrounded by NAD(P)H-oxidase complexes – (fluorophore – AnnexinV-FITC (a) and 7AAD (b)). Confocal microscope with 100x magnification.

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© Russian Academy of Sciences, 2024

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