Synthesis and in vitro cytotoxic activity of dye-linker-macrocycle conjugates with variable linker length and components.

The study investigated the structure-activity relationship of newly synthesized dye-linker-macrocycle (DLM) conjugates and the effect of each component on various biological properties, including cytotoxicity, cellular uptake, intracellular localization, interaction with DNA and photodynamic effects. The conjugates were synthesized by combining 1,8-naphthalimide and thioxanthone dyes with 1,4,7,10-tetraazacyclododecane (cyclen) and 1-aza-12-crown-4 (1A12C4) using alkyl linkers of different lengths. The results revealed significant differences in biological activity among the various series of conjugates. Particularly, 1A12C4 conjugates exhibited notably higher cytotoxicity compared to cyclen conjugates. Conjugation with 1A12C4 proved to be an effective strategy for increasing cellular uptake and cytotoxicity of small-molecule conjugates. In addition, the results highlighted the critical role of linker length in modulating the biological activity of DLM conjugates. It became clear that the choice of each component (dye, macrocycle and linker) could significantly alter the biological activity of the conjugates.

Cytotoxic effects of halophilic archaea metabolites on ovarian cancer cell lines.

BACKGROUND: Ovarian cancer is one of the most frequent and deadly gynaecological cancers, often resistant to platinum-based chemotherapy, the current standard of care. Halophilic microorganisms have been shown to produce a large variety of metabolites, some of which show toxicity to various cancer cell lines. However, none have yet been shown to be active against ovarian cancer cells. Here, we examined the effects of metabolites secreted by the halophilic archaea Halorhabdus rudnickae and Natrinema salaciae on various cancer cell lines, including ovarian cancer cell lines. RESULTS: 1H NMR analyses of Hrd. rudnickae and Nnm. salaciae culture supernatants contain a complex mixture of metabolites that differ between species, and even between two different strains of the same species, such as Hrd. rudnickae strains 64T and 66. By using the MTT and the xCELLigence RTCA assays, we found that the secreted metabolites of all three halophilic strains expressed cytotoxicity to the ovarian cancer cell lines, especially A2780, as well as its cisplatin-resistant derivative A2780cis, in a dose-dependent manner. The other tested cell lines A549, HepG2, SK-OV-3 and HeLa were only minimally, or not at all affected by the archaeal metabolites, and this was only seen with the MTT assay. CONCLUSIONS: The halophilic archaea Hrd. rudnickae and Nnm. salaciae, isolated from a Polish salt mine and Lake Medee in the Mediterranean Sea, respectively, secrete metabolites that are active against ovarian cancer cells, including those that are resistant to cisplatin. This opens potential new possibilities for the treatment of these frequent and deadly gynaecological cancers.

Acridine/Acridone-Carborane Conjugates as Strong DNA-Binding Agents with Anticancer Potential.

Synthesis of acridine derivatives that act as DNA-targeting anticancer agents is an evolving field and has resulted in the introduction of several drugs into clinical trials. Carboranes can be of importance in designing biologically active compounds due to their specific properties. Therefore, a series of novel acridine analogs modified with carborane clusters were synthesized. The DNA-binding ability of these analogs was evaluated on calf thymus DNA (ct-DNA). Results of these analyses showed that 9-[(1,7-dicarba-closo-dodecaborane-1-yl)propylamino]acridine (30) interacted strongly with ct-DNA, indicating its ability to intercalate into DNA, whereas 9-[(1,7-dicarba-closo-dodecaborane-1-yl)propanamido]acridine (29) changed the B-form of ct-DNA to the Z form. Compound 30 demonstrated cytotoxicity, was able to inhibit cell proliferation, arrest the cell cycle in the S phase in the HeLa cancer cell line, and induced the production of reactive oxygen species (ROS). In addition, it was specifically localized in lysosomes and was a weak inhibitor of Topo IIα.

Carboranyl-1,8-naphthalimide intercalators induce lysosomal membrane permeabilization and ferroptosis in cancer cell lines.

The synthesis of carborane-1,8-naphthalimide conjugates and evaluation of their DNA-binding ability and anticancer activity were performed. A series of 4-carboranyl-3-nitro-1,8-naphthalimide derivatives, mitonafide and pinafide analogs, were synthesised via amidation and reductive amination reactions, and their calf thymus DNA (ct-DNA)-binding properties were investigated using circular dichroism, UV-vis spectroscopy, and thermal denaturation. Results showed that conjugates 34-37 interacted very strongly with ct-DNA (ΔTm = 10.00-13.00 °C), indicating their ability to intercalate with DNA, but did not inhibit the activity of topoisomerase II. The conjugates inhibited the cell growth of the HepG2 cancer cell line in vitro. The same compounds caused the G2M phase arrest. Cell lines treated with these conjugates showed an increase in reactive oxygen species, glutathione, and Fe2+ levels, lipid peroxidation, and mitochondrial membrane potential relative to controls, indicating the involvement of ferroptosis. Furthermore, these conjugates caused lysosomal membrane permeabilization in HepG2 cells but not in MRC-5 cells.

Fluorinated Analogues of Lepidilines A and C: Synthesis and Screening of Their Anticancer and Antiviral Activity.

Starting with fluorinated benzylamines, a series of 2-unsubstituted imidazole N-oxides was prepared and subsequently deoxygenated in order to prepare the corresponding imidazoles. The latter were treated with benzyl halides yielding imidazolium salts, which are considered fluorinated analogues of naturally occurring imidazolium alkaloids known as lepidilines A and C. A second series of oxa-lepidiline analogues was obtained by O-benzylation of the initially synthetized imidazole N-oxides. Both series of imidazolium salts were tested as anticancer and antiviral agents. The obtained results demonstrated that the introduction of a fluorine atom, fluoroalkyl or fluoroalkoxy substituents (F, CF3 or OCF3) amplifies cytotoxic properties, whereas the cytotoxicity of some fluorinated lepidilines is promising in the context of drug discovery. All studied compounds revealed a lack of antiviral activity against the investigated viruses in the nontoxic concentrations.

Molecular mechanism of action of oxazolinoanthracyclines in cells derived from human solid tumors. Part 2.

BACKGROUND/AIM: Oxazolinodoxorubicin (O-DOX) and oxazolinodaunorubicin (O-DAU) are derivatives of anthracyclines (DOX and DAU) with a modified daunosamine moiety. We aimed to clarify their mechanisms of action by investigating intracellular accumulation and effects on the cell cycle, phosphatidylserine externalization, and proteasome 20S activity. MATERIALS AND METHODS: Experimental model consisted of SKOV-3, A549 and HepG2 cells. Compounds were used at the concentration of 80nM. Intracellular accumulation, drug uptake, and proteasome 20S activity were evaluated by fluorimetric methods. The effects on the cell cycle and phosphatidylserine externalization were measured by flow cytometry. RESULTS: O-DOX was equivalent to DOX in terms of inducing G2/M arrest, but O-DAU was less potent in SKOV-3, HepG2, and A549 cells. O-DOX had the greatest effect on initiating apoptosis in all tested cells. Externalization of phosphatidylserine was significantly higher following O-DOX treatment compared with control cells and cells incubated with DOX. The intracellular accumulation and uptake of the derivatives were similar to those of the reference drugs. Tested compounds are able to activate proteasome 20S activity. CONCLUSION: Our results extended the understanding of the toxicity, mechanism of action, and biochemical properties of oxazoline derivatives of doxorubicin and daunorubicin, including their effects on cell cycle, apoptosis and DNA degradation.

Structural modifications in the sugar moiety as a key to improving the anticancer effectiveness of doxorubicin.

Doxorubicin (DOX) is one of the most commonly used and effective chemotherapeutic agents. Despite its clinical benefits, the use of DOX is often limited by serious adverse effects, such as severe cardiotoxicity and myelosuppression. Recent progress in chemical synthesis has enabled the design of modified anthracyclines with a sugar moiety being a desirable subject of research. A series of new analogues of DOX has been synthesised, in which the amino group in the daunosamine moiety was replaced by a formamidine system containing the rest of the cyclic secondary amine with gradually increased ring size. An additional product containing the oxazoline ring in daunosamine moiety was obtained during the synthesis of formamidinodoxorubicin from DOX. Formamidine derivatives demonstrate better anticancer properties when compared with parental DOX, such as lower cardiotoxicity and comparable or higher antiproliferative activity. Also the analogue containing the oxazoline ring in the structure shows promising results. Structural modifications in the sugar moiety, involving oxazoline ring formation, increase the anticancer activity in terms of apoptosis induction and genotoxicity. It can be concluded that chemical modification at the C3' position is a good method to increase the activity against cancer cells in vitro.

The role of survivin in the diagnosis and therapy of gynaecological cancers.

Survivin is a member of the family of apoptosis inhibitors. It regulates several essential cellular processes, i.e. it inhibits apoptosis and promotes cell proliferation, DNA repair and autophagy. Survivin is responsible for development of the cell's resistance to chemotherapy and radiotherapy. Overexpression of survivin generally correlates with poor prognosis. Its presence has been detected in most types of human tumours. Currently much attention is paid to the possibilities of using this protein as a diagnostic marker of cancer or a prognostic factor. Survivin occurs selectively in cancer cells and is essential for their survival. These features make survivin a promising target for cancer therapy. There are some strategies for discovering survivin inhibitors. The most common strategies are antisense nucleotides, RNA interference and small molecule inhibitors of protein. Scientists are also working on using survivin to induce an immune response in cancer patients. This article discusses the potential role of survivin in the diagnosis of various types of cancer, as well as selected strategies for the inhibition of both gene expression and protein function. Detailed knowledge of the mechanisms of survivin action may therefore be crucial for effective antitumor therapy development.

Identification of the key pathway of oxazolinoanthracyclines mechanism of action in cells derived from human solid tumors.

Oxazolinodoxorubicin (O-DOX) and oxazolinodaunorubicin (O-DAU) are novel anthracycline derivatives with a modified daunosamine moiety. In the present study, we evaluated the cytotoxicities, genotoxicities and abilities of O-DOX and O-DAU to induce apoptosis in cancer cell lines (SKOV-3; A549; HepG2), and compared the results with their parent drugs. We assessed antiproliferative activity by MTT assay. We evaluated apoptosis-inducing ability by double-staining with fluorescent probes (Hoechst 33258/propidium iodide), and by determining expression levels of genes involved in programmed cell death by reverse transcription-polymerase chain reaction. Genotoxicities of the compounds were tested by comet assays. Oxazolinoanthracyclines demonstrated high anti-tumor activity. O-DOX had significantly higher cytotoxicity, apoptosis-inducing ability, and genotoxicity compared with parental doxorubicin (DOX) in all tested conditions, while O-DAU activity differed among cell lines. The mechanism of oxazoline analog action appeared to involve the mitochondrial pathway of programmed cell death. These results provide further information about oxazoline derivatives of commonly used anthracycline chemotherapy agents. O-DOX and O-DAU have the ability to induce apoptosis in tumor cells.

Formamidinodoxorubicins are more potent than doxorubicin as apoptosis inducers in human breast cancer cells.

BACKGROUND/AIM: The ability of five formamidinodoxorubicins to induce apoptosis of MCF-7 breast cancer cells was tested. All these compounds were modified at C-3' and contain a formamidine group (-N=CH-NRR), with the rest of the cyclic secondary amine (HNRR) of a gradually increasing ring size. MATERIALS AND METHODS: Cytotoxicity was assessed using 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. To analyze apoptosis, double staining using fluorescence probes Hoechst 33258/propidium iodide (PI) and annexin V- Fluorescein isothiocyanate/PI was carried-out. Additionally, the TdT-mediated dUTP nick-end labelling test and activity of caspase 3 were determined. RESULTS: The four tested derivatives displayed a significant increase in antiproliferative activity in comparison to doxorubicin. All of the tested derivatives induced caspase-dependent apoptosis of MCF-7 cells. CONCLUSION: DOX-F MOR and DOX-F PAZ analogs are more potent apoptosis inducers than doxorubicin.

Cytotoxicity and induction of apoptosis by formamidinodoxorubicins in comparison to doxorubicin in human ovarian adenocarcinoma cells.

BACKGROUND/AIM: In this study we investigated the effect of DOX and five of its derivatives containing a formamidine group (NCHNRR) at the 3' position with pyrrolidine (DOX-F PYR), piperidine (DOX-F PIP), morpholine (DOX-F MOR), N-methylpiperazine (DOX-F PAZ) and hexamethyleneimine (DOX-F HEX) ring on SKOV-3 ovarian cancer cells. We have focused on the anti-proliferative activity and the value of apoptosis induced by tested analogues. MATERIALS AND METHODS: The following methods were used: spectrophotometric assay with MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide); fluorimetric assays - double staining with Hoechst 33258 and propidium iodide (PI), measurement of caspase-3 activity; flow cytometry methods - phosphatidylserine (PS) externalization using Annexin V-FITC and PI fluorochromes, and TUNEL assay. RESULTS: All of the investigated derivatives were considerably more cytotoxic to the SKOV-3 cell line than DOX. The predominant type of cell death induced by the anthracycline analogues was apoptosis. Necrotic cells represented only a small percentage (<5%) of all cells. The number of apoptotic cells was dependent on the compound and the incubation time. Moreover, a significant increase in caspase-3 activity, DNA fragmentation, and morphological changes in ovarian cells were observed predominantly in new DOX analogues. CONCLUSIONS: All new formamidine derivatives of DOX were effective against ovarian cancer cells. They induced mainly the apoptotic pathway of cell death mediated by caspase-3. The most promising results were obtained for DOX-F MOR and DOX-F PAZ. The least potent was DOX-F HEX.

Early Activation of Apoptosis and Caspase-independent Cell Death Plays an Important Role in Mediating the Cytotoxic and Genotoxic Effects of WP 631 in Ovarian Cancer Cells.

The purpose of this study was to provide a detailed explanation of the mechanism of bisanthracycline,?WP 631 in comparison to doxorubicin (DOX), a first generation anthracycline, currently the most widely used pharmaceutical in clinical oncology. Experiments were performed in SKOV-3 ovarian cancer cells which are otherwise resistant to standard drugs such as cis-platinum and adriamycin. As attention was focused on the ability of WP 631 to induce apoptosis, this was examined using a double staining method with Annexin V and propidium iodide probes, with measurement of the level of intracellular calcium ions and cytosolic cytochrome c. The western blotting technique was performed to confirm PARP cleavage. We also investigated the involvement of caspase activation and DNA degradation (comet assay and immunocytochemical detection of phosphorylated H2AX histones) in the development of apoptotic events. WP 631 demonstrated significantly higher effectiveness as a pro-apoptotic drug than DOX. This was evident in the higher levels of markers of apoptosis, such as the externalization of phosphatidylserine and the elevated level of cytochrome c. An extension of incubation time led to an increase in intracellular calcium levels after treatment with DOX. Lower changes in the calcium content were associated with the influence of WP 631. DOX led to the activation of all tested caspases, 8, 9 and 3, whereas WP 631 only induced an increase in caspase 8 activity after 24h of treatment and consequently led to the cleavage of PARP. The lack of active caspase 3 had no outcome on the single and double-stranded DNA breaks. The obtained results show that WP 631 was considerably more genotoxic towards the investigated cell line than DOX. This effect was especially visible after longer times of incubation. The above detailed studies indicate that WP 631 generates early apoptosis and cell death independent of caspase-3, detected at relatively late time points. The observed differences in the mechanisms of the action of WP631 and DOX suggest that this bisanthracycline can be an effective alternative in ovarian cancer treatment.