Open Access

Molecules

, volume 27 , issue 3 , pages 628

Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2

Alexander Popov ¹

Anna Klimovich ¹

Olga Styshova ^{1, 2}

Alexander Tsybulsky ²

Dmitry Hushpulian ^{2, 3}

Andrey Osipyants ²

Anna Khristichenko ⁴

Sergey Kazakov ⁵

Manuj Ahuja ⁶

Navneet Kaidery ⁶

Bobby Thomas ⁶

Vladimir I. Tishkov ^{7, 8, 9}

Abraham Brown ¹⁰

Irina Gazaryan ^{3, 5, 8, 9}

Andrey Poloznikov ³

Hide authors affiliations Show authors affiliations: 10 affiliations

G.B. Elyakov Pacific Institute of Bioorganic Chemistry, Far Eastern Branch, Russian Academy of Sciences, 159 Prospect 100-Years of Vladivostok, 690022 Vladivostok, Russia |

Department of Biochemistry, Microbiology and Biotechnology, Institute of the World Ocean, Far Eastern Federal University, Campus L, Island Russian, 690920 Vladivostok, Russia |

Faculty of Biology and Biotechnology, National Research University Higher School of Economics, 13-4 Myasnitskaya Street, 117997 Moscow, Russia |

⁴

Moscow Institute of Physics and Technology, 9 Institutskiy lane, Dolgoprudny, 141701 Moscow, Russia |

⁵

Department of Chemistry and Physical Sciences, Dyson College of Art and Sciences, Pace University, 861 Bedford Road, Pleasantville, NJ 10570, USA |

⁶

Departments of Pediatrics, Darby Research Institute, Neurosciencec, Drug Discovery, Medical University of South Carolina, Charleston, SC 29425, USA |

⁷

Innovation and High Technologies MSU Ltd., Tsymlyanskaya 16, 109599 Moscow, Russia |

⁸

Department of Chemical Enzymology, School of Chemistry, M.V. Lomonosov Moscow State University, 1 Leninskiye Gory, 119991 Moscow, Russia |

⁹

Bach Institute of Biochemistry, Research Center of Biotechnology of the Russian Academy of Sciences, 33-2 Leninsky Prospect, 119071 Moscow, Russia

Bach Institute of Biochemistry of the Russian Academy of Sciences

Federal Research Centre “Fundamentals of Biotechnology” of the Russian Academy of Sciences

¹⁰

Department of Anatomy Cell Biology, New York Medical College, 15 Dana Road, Valhalla, NY 10595, USA |

Publication type: Journal Article

Publication date: 2022-01-19

MDPI

Molecules

scimago Q1

wos Q2

SJR: 0.865

CiteScore: 8.6

Impact factor: 4.6

ISSN: 14203049

DOI: 10.3390/molecules27030628

Copy DOI

PubMed ID: 35163891

Organic Chemistry

Drug Discovery

Physical and Theoretical Chemistry

Pharmaceutical Science

Molecular Medicine

Analytical Chemistry

Chemistry (miscellaneous)

Abstract

Ginsenoside Rh2 increases the efficacy of doxorubicin (DOX) treatment in murine models of solid and ascites Ehrlich’s adenocarcinoma. In a solid tumor model (treatment commencing 7 days after inoculation), DOX + Rh2 co-treatment was significantly more efficacious than DOX alone. If treatment was started 24 h after inoculation, the inhibition of tumor growth of a solid tumor for the DOX + Rh2 co-treatment group was complete. Furthermore, survival in the ascites model was dramatically higher for the DOX + Rh2 co-treatment group than for DOX alone. Mechanisms underlying the combined DOX and Rh2 effects were studied in primary Ehrlich’s adenocarcinoma-derived cells and healthy mice’s splenocytes. Despite the previously established Rh2 pro-oxidant activity, DOX + Rh2 co-treatment revealed no increase in ROS compared to DOX treatment alone. However, DOX + Rh2 treatment was more effective in suppressing Ehrlich adenocarcinoma cell adhesion than either treatment alone. We hypothesize that the benefits of DOX + Rh2 combination treatment are due to the suppression of tumor cell attachment/invasion that might be effective in preventing metastatic spread of tumor cells. Ginsenoside Rh2 was found to be a modest activator in a Neh2-luc reporter assay, suggesting that Rh2 can activate the Nrf2-driven antioxidant program. Rh2-induced direct activation of Nrf2 might provide additional benefits by minimizing DOX toxicity towards non-cancerous cells.

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Popov A. et al. Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2 // Molecules. 2022. Vol. 27. No. 3. p. 628.

GOST all authors (up to 50) Copy

Popov A., Klimovich A., Styshova O., Tsybulsky A., Hushpulian D., Osipyants A., Khristichenko A., Kazakov S., Ahuja M., Kaidery N., Thomas B., Tishkov V. I., Brown A., Gazaryan I., Poloznikov A. Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2 // Molecules. 2022. Vol. 27. No. 3. p. 628.

RIS |

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RIS Copy

TY - JOUR

DO - 10.3390/molecules27030628

UR - https://doi.org/10.3390/molecules27030628

TI - Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2

T2 - Molecules

AU - Popov, Alexander

AU - Klimovich, Anna

AU - Styshova, Olga

AU - Tsybulsky, Alexander

AU - Hushpulian, Dmitry

AU - Osipyants, Andrey

AU - Khristichenko, Anna

AU - Kazakov, Sergey

AU - Ahuja, Manuj

AU - Kaidery, Navneet

AU - Thomas, Bobby

AU - Tishkov, Vladimir I.

AU - Brown, Abraham

AU - Gazaryan, Irina

AU - Poloznikov, Andrey

PY - 2022

DA - 2022/01/19

PB - MDPI

SP - 628

IS - 3

VL - 27

PMID - 35163891

SN - 1420-3049

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@article{2022_Popov,

author = {Alexander Popov and Anna Klimovich and Olga Styshova and Alexander Tsybulsky and Dmitry Hushpulian and Andrey Osipyants and Anna Khristichenko and Sergey Kazakov and Manuj Ahuja and Navneet Kaidery and Bobby Thomas and Vladimir I. Tishkov and Abraham Brown and Irina Gazaryan and Andrey Poloznikov},

title = {Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2},

journal = {Molecules},

year = {2022},

volume = {27},

publisher = {MDPI},

month = {jan},

url = {https://doi.org/10.3390/molecules27030628},

number = {3},

pages = {628},

doi = {10.3390/molecules27030628}

}

MLA

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MLA Copy

Popov, Alexander, et al. “Probable Mechanisms of Doxorubicin Antitumor Activity Enhancement by Ginsenoside Rh2.” Molecules, vol. 27, no. 3, Jan. 2022, p. 628. https://doi.org/10.3390/molecules27030628.

Publisher

MDPI

Journal

Molecules

scimago Q1

wos Q2

SJR

0.865

CiteScore

8.6

Impact factor

4.6

ISSN

14203049 (Print, Electronic)

Profiles

Vladimir I Tishkov

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