Targeting Mitochondria for Cancer Treatment

Zorova, Ljubava D.; Abramicheva, Polina A.; Andrianova, Nadezda V.; Babenko, Valentina A.; Zorov, Savva D.; Pevzner, Irina B.; Popkov, Vasily A.; Semenovich, Dmitry S.; Yakupova, Elmira I.; Silachev, Denis N.; Plotnikov, Egor Y.; Sukhikh, Gennady T.; Zorov, Dmitry B.

doi:10.3390/pharmaceutics16040444

Pharmaceutics

2024

DOI: 10.3390/pharmaceutics16040444

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Targeting Mitochondria for Cancer Treatment

Ljubava D. Zorova,

Polina A. Abramicheva,

Nadezda V. Andrianova

et al.

Abstract: There is an increasing accumulation of data on the exceptional importance of mitochondria in the occurrence and treatment of cancer, and in all lines of evidence for such participation, there are both energetic and non-bioenergetic functional features of mitochondria. This analytical review examines three specific features of adaptive mitochondrial changes in several malignant tumors. The first feature is characteristic of solid tumors, whose cells are forced to rebuild their energetics due to the absence of o… Show more

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Cited by 5 publications

References 191 publications

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Erucic acid increases the potency of cisplatin‐induced colorectal cancer cell death and oxidative stress by upregulating the TRPM2 channel

Nazıroğlu,

Çarhan,

Nazıroğlu

2024

Cell Biology International

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Erucic acid (ErA) is a source of omega‐9 monounsaturated fatty acids. ErA exhibited antitumor effects by causing apoptosis and oxidative stress in tumor cells, with the exception of the HT‐29 human colorectal cancer cell line. The apoptotic and Ca2+ signaling pathways in tumor cells are triggered when mitochondrial Ca2+ and Zn2+ accumulation produce reactive free oxygen species (ROS), which in turn activate TRPM2. ErA‐induced ROS and TRPM2 stimulation may augment the anticancer action of cisplatin (CSP). We aimed to study the effects of ErA and CSP incubations on ROS, apoptosis, and cell death in the HT‐29 cells by activating TRPM2. The cells were divided into five groups: control, ErA (200 µM for 48 h), CSP (25 µM for 24 h), and ErA + CSP + TRPM2 antagonists (200 µM carvacrol and 25 µM N‐(p‐amylcinnamoyl)anthranilic acid for 24 h). The TRPM2 antagonists reduced ErA plus CSP‐induced increases in H2O2‐induced intracellular free Ca2+ concentration ([Ca2+]c) and adenosine diphosphate‐ribose‐caused TRPM2 currents. ErA and CSP were found to cause apoptosis and cell death by raising the intracellular free Zn2+ concentration (Zn2+]c), caspase‐3, −8, and −9, mitochondrial membrane dysfunction, and ROS, while lowering reduced glutathione, cell viability, and cell number. The oxidative, apoptotic, and tumor cell death effects of CSP in the cells were enhanced by the increase of ErA‐mediated [Ca2+]c and Zn2+]c entering mitochondria through the activation of TRPM2. In conclusion, we observed that the combination of ErA and CSP was synergistic via TRPM2 activation for the treatment of HT‐29 tumor cells.

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Erucic acid increases the potency of cisplatin‐induced colorectal cancer cell death and oxidative stress by upregulating the TRPM2 channel

Nazıroğlu,

Çarhan,

Nazıroğlu

2024

Cell Biology International

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Mitochondria targeting combined with methyl modification of novel resveratrol derivatives enhances anti-tumor activity

Wang,

Chen,

Gao

et al. 2025

New J. Chem.

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Deferasirox, an iron chelator, impacts myeloid differentiation by modulating NF‐kB activity via mitochondrial ROS

Jeffries,

Sadreyev,

Trull

et al. 2024

Br J Haematol

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SummaryThe iron chelator deferasirox (DFX) is effective in the treatment of iron overload. In certain patients with myelodysplastic syndrome, DFX can also provide a dramatic therapeutic benefit, improving red blood cell production and decreasing transfusion requirements. Nuclear Factor‐kappa B (NF‐kB) signalling has been implicated as a potential mechanism behind this phenomenon, with studies focusing on the effect of DFX on haematopoietic progenitors. Here, we examine the phenotypic and transcriptional effects of DFX throughout myeloid cell maturation in both murine and human model systems. The effect of DFX depends on the stage of differentiation, with effects on mitochondrial reactive oxygen species (ROS) production and NF‐kB pathway regulation that vary between progenitors and neutrophils. DFX triggers a greater increase in mitochondrial ROS production in neutrophils and this phenomenon is mitigated when cells are cultured in hypoxic conditions. Single‐cell transcriptomic profiling revealed that DFX decreases the expression of NF‐kB and MYC (c‐Myc) targets in progenitors and decreases the expression of PU.1 (SPI1) gene targets in neutrophils. Together, these data suggest a role of DFX in impairing terminal maturation of band neutrophils.

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Targeting Mitochondria for Cancer Treatment

Cited by 5 publications

References 191 publications

Erucic acid increases the potency of cisplatin‐induced colorectal cancer cell death and oxidative stress by upregulating the TRPM2 channel

Erucic acid increases the potency of cisplatin‐induced colorectal cancer cell death and oxidative stress by upregulating the TRPM2 channel

Mitochondria targeting combined with methyl modification of novel resveratrol derivatives enhances anti-tumor activity

Deferasirox, an iron chelator, impacts myeloid differentiation by modulating NF‐kB activity via mitochondrial ROS

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