Aneta Koceva‐Chyła scite author profile

We examined molecular events and morphological features associated with apoptosis induced by anthraquinone anticancer drugs aclarubicin, mitoxantrone and doxorubicin in two spontaneously immortalized cell lines (NIH 3T3 and B14) in relation to cytotoxicity of these drugs. The investigated cells showed similar sensitivity to aclarubicin but different sensitivity to doxorubicin and mitoxantrone: mitoxantrone was the most cytotoxic drug in both cell lines. All three drugs triggered both apoptosis and necrosis but none of these processes was positively correlated with their cytotoxicity. Apoptosis was the prevalent form of cell kill by aclarubicin, while doxorubicin and mitoxantrone induced mainly the necrotic mode of cell death. The extent and the timing of apoptosis were strongly dependent on the cell line, the type of the drug and its dose, and were mediated by caspase-3 activation. A significant increase in caspase-3 activity and the percentage of apoptotic cells, oligonucleosomal DNA fragmentation, chromatin condensation and formation of apoptotic bodies was observed predominantly in B14 cells. NIH 3T3 cells showed lesser changes and a lack of DNA fragmentation. Aclarubicin was the fastest acting drug, inducing DNA fragmentation 12 h earlier than doxorubicin, and 24 h earlier than mitoxantrone. Caspase-3 inhibitor Ac-DEVD-CHO did not show any significant effect on drug cytotoxicity and DNA nucleosomal fragmentation.

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Insights into the in vitro Anticancer Effects of Diruthenium‐1

Koceva‐Chyła

Matczak

Hikisz

et al. 2016

ChemMedChem

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The in vitro anticancer activity of the dinuclear trithiolato-bridged arene ruthenium complex diruthenium-1 (DiRu-1) was evaluated against a panel of human cancer cell lines used as in vitro models for hepatocellular carcinoma (HepG2 cells), estrogen-responsive breast adenocarcinoma (MCF-7 cells), and triple-negative breast adenocarcinoma (MDA-MB-231 cells). DiRu-1 is highly cytotoxic to these cell lines, demonstrating half-maximal inhibitory concentrations (IC ) in the low-nanomolar range (77±1.4 to 268.2±4.4 nm). The main molecular mechanisms responsible for the high cytotoxicity of DiRu-1 against the most responsive MCF-7 cell line (IC =77±1.4 nm) were investigated on the basis of the capacity of DiRu-1 to induce oxidative stress, apoptosis, and DNA damage, and to inhibit the cell cycle and proliferation. The results show that DiRu-1 triggers caspase-dependent apoptosis in MCF-7 cells on both the intrinsic and extrinsic pathways. Moreover, the Ru complex also causes necrosis, mitotic catastrophe, and autophagy. DiRu-1 increases the intracellular levels of reactive oxygen species (ROS), which play a significant role in its cytotoxicity and pro-apoptotic activity. An important mechanism of the anticancer activity of DiRu-1 appears to be the induction of DNA lesions, mainly due to apoptotic DNA fragmentation and cell-cycle arrest at the G /M checkpoint. These changes are correlated with the concentration of DiRu-1, the duration of the cell treatment, and the post-treatment time.

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Aclarubicin-induced ROS generation and collapse of mitochondrial membrane potential in human cancer cell lines

Rogalska

Koceva‐Chyła

Jóźwiak

2008

Chemico-Biological Interactions

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Anticancer and Antibacterial Activity Studies of Gold(I)-Alkynyl Chromones

et al. 2015

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Three gold(I) complexes of alkynyl chromones were synthesized and characterized. The single-crystal X-ray structure analysis of a dinuclear compound and of a flavone derivative exhibit a typical d 10 gold(I)-alkynyl linear arrangement. All complexes were evaluated as anticancer and antibacterial agents against four human cancer cell lines and four pathogenic bacterial strains. All compounds show antiproliferative activity at lower micromolar range concentrations. Complex 4 showed a broad activity profile, being more active than the reference drug auranofin against HepG2, MCF-7 and CCRF-CEM cancer cells. The cellular uptake into MCF-7 cells of the investigated complexes was measured by atomic absorption spectroscopy (AAS). These measurements showed a positive correlation between an increased cellular gold content and the incubation time of the complexes. Unexpectedly an opposite effect was observed for the most active compound. Biological assays revealed various molecular mechanisms for these compounds, comprising: (i) thioredoxin reductase (TrxR) inhibition, (ii) caspases-9 and -3 activation; (iii) DNA damaging activity and (iv) cell cycle disturbance. The gold(I) complexes were also bactericidal against Gram-positive methicillin-sensitive Staphylococcus aureus (MSSA) and methicillin-resistant S. aureus (MRSA) bacterial strains, while showing no activity against the Gram-negative Escherichia coli bacterial strain.

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Oxidative stress induced in rat liver by anticancer drugs doxorubicin, paclitaxel and docetaxel

Pieniążek

Czepas

Piasecka-Zelga

et al. 2013

Advances in Medical Sciences

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