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Review
. 2021 Jul 21;9(8):852.
doi: 10.3390/biomedicines9080852.

Modulation of Intracellular Copper Levels as the Mechanism of Action of Anticancer Copper Complexes: Clinical Relevance

Maria V Babak  1 Dohyun Ahn  1
Affiliations
Review

Modulation of Intracellular Copper Levels as the Mechanism of Action of Anticancer Copper Complexes: Clinical Relevance

Maria V Babak (V体育官网入口) et al. Biomedicines. .

"V体育平台登录" Abstract

Copper (Cu) is a vital element required for cellular growth and development; however, even slight changes in its homeostasis might lead to severe toxicity and deleterious medical conditions. Cancer patients are typically associated with higher Cu content in serum and tumor tissues, indicating increased demand of cancer cells for this micronutrient. Cu is known to readily cycle between the +1 and +2 oxidation state in biological systems VSports手机版. The mechanism of action of Cu complexes is typically based on their redox activity and induction of reactive oxygen species (ROS), leading to deadly oxidative stress. However, there are a number of other biomolecular mechanisms beyond ROS generation that contribute to the activity of anticancer Cu drug candidates. In this review, we discuss how interfering with intracellular Cu balance via either diet modification or addition of inorganic Cu supplements or Cu-modulating compounds affects tumor development, progression, and sensitivity to treatment modalities. We aim to provide the rationale for the use of Cu-depleting and Cu-overloading conditions to generate the best possible patient outcome with minimal toxicity. We also discuss the advantages of the use of pre-formed Cu complexes, such as Cu-(bis)thiosemicarbazones or Cu-N-heterocyclic thiosemicarbazones, in comparison with the in situ formed Cu complexes with metal-binding ligands. In this review, we summarize available clinical and mechanistic data on clinically relevant anticancer drug candidates, including Cu supplements, Cu chelators, Cu ionophores, and Cu complexes. .

Keywords: Cu chelators; Cu homeostasis; Cu ionophores; Cu overload; Cu toxicity; cancer; chemical biology; clinical trials; immune system; thiosemicarbazones V体育安卓版. .

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

Figure 1
Figure 1
The RIP1-Tag2 mouse model of spontaneous pancreatic cancer development. Mice were given 20 μM of CuSO4 in drinking water from 4 weeks of age. Cu-treated mice demonstrated significantly higher volume of pancreatic tumors. Photographs of the tumors were taken from reference [57] with the permission from PNAS.
Figure 2
Figure 2
The effects of Cu-deficiency on the metabolic profile of CHO cells. Adapted from reference [108] (COX—cytochrome C oxydase, ETC—electron transport chain, ROS—reactive oxygen species, PPP—pentose phosphate pathway, NADPH—nicotinamide adenine dinucleotide phosphate, NAD+—nicotinamide adenine dinucleotide, ATP—adenosine triphosphoate).
Figure 3
Figure 3
(A) Chemical structures of Trientine (TETA), D-penicillamine (D-pen), and tetrathiomolybdate (TM) and (B) their Cu complexes.
Figure 4
Figure 4
Chemical structures of (A) MSI-1436, DPM-1001, and (B) its Cu(II) complex.
Figure 5
Figure 5
(A) Chemical transformation of disulfiram (DSF) in aqueous solutions and (B) mechanism with the formation of bitt-42+ intermediate.
Figure 6
Figure 6
Chemical structures of dipyridylhydrazone dithiocarbamate (DpdtC), pyrrolidine dithiocarbamate (PDTC), and its analogue 1.
Figure 7
Figure 7
Chemical structures of 8-hydroxyquinoline (8-HQ), clioquinol (CQ), and its derivatives 2 and 3.
Figure 8
Figure 8
(A) Chemical structures of elesclomol, OTA-5781 and OTA-3998 and the parent compound of elesclomol N1,N3-diethanethioyl-N1,N3-diphenylmalonohydrazide (4); (B) proposed mechanism of FDX1-mediated, elesclomol/Cu-induced cell death induction.
Figure 9
Figure 9
Chemical structures of Triapine (3-AP), di-2-pyridylketone 4,4-dimethyl-3-thiosemicarbazone (Dp44mT), di-2-pyridylketone 4-cyclohexyl-4-methyl-3-thiosemicarbazone (DpC), NSC319726 and COTI-2.
Figure 10
Figure 10
Chemical structures of di-2-pyridylketone TSCs (DpT series), 2-benzoylpyridine TSCs (BpT series), and 2-acetylpyridine TSCs (ApT series).
Figure 11
Figure 11
Mechanism of the base-catalyzed desulfurization of 3-AP/Cu complex, which generates the insoluble CuS and nitrile compounds.
Figure 12
Figure 12
Chemical structures of (A) 2-keto-3-ethoxybutyraldehyde-bis(thiosemicarbazone) (H2kts), 2-keto-3-ethoxybutyraldehyde-bis(4-methylthiosemicarbazone) (H2ktsm), glyoxal-bis(4-methylthiosemicarbazone) (H2gtsm), diacetyl-bis(4-methylthiosemicarbazone) (H2atsm), (B) their respective Cu complexes and galactosamine (gal)-Cu(gtsm) complex.
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