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4. Radiosensitization of non-small cell lung carcinoma by EGFR inhibition

Author

Keta Otilija D., Bulat Tanja M., Korićanac Lela B., Žakula Jelena J., Cuttone Giacomo, Privitera Giuseppe, Petrović Ivan M., and Ristić-Fira Aleksandra M.

Subjects
human lung adenocarcinoma cell, γ-ray, DNA damage, erlotinib, radiosensitization, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Molecular targeted cancer therapy is a promising treatment strategy. Considering the central role of the epidermal growth factor receptor in cell proliferation and survival, there are indications that targeted agents like tyrosine kinase inhibitors, i. e., erlotinib, may enhance the antitumor treatment by radiation. The aim of this study is to analyze the inactivation effects of g-rays and to test the radiosensitizing potential of erlotinib on human lung adenocarcinoma cells in vitro. Irradiations were performed with doses ranging from 1 Gy to 8 Gy. In order to increase the radiosensitivity of CRL-5876 lung adenocarcinoma cells, the cells were treated with a clinically relevant concentration of 2 µM erlotinib. The effects of single and combined treatments were monitored using clonogenic survival, cell viability and proliferation assays at different time points. For the detection and visualization of the phosphorylated histone H2AX (γ-H2AX), an important biological marker of DNA double-strand break formation, fluorescence immunocytochemistry, was performed. The response to the treatment was monitored at four time points: 30 min, 2, 6, and 24 h. Irradiations with g-rays resulted in significant cell inactivation regarding all analyzed biological endpoints. Combined treatments revealed consistent cell inactivation. Moreover, compared to g-rays alone, elevated levels of g-H2AX foci were observed after pretreatment with erlotinib, indicating radiosensitization through impaired DNA repair. [Projekat Ministarstva nauke Republike Srbije, br. 173046 i br. 171019]

Published
2014
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5. Carbon ions induce DNA double strand breaks and apoptosis in HTB140 melanoma cells

Author

Korićanac Lela, Žakula Jelena, Keta Otilija, Cirrone Pablo, Cuttone Giacomo, Ristić-Fira Aleksandra, and Petrović Ivan

Subjects
melanoma, carbon ion, apoptosis, p53, Bax/Bcl-2 ratio, caspase-3, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

This study was conducted in order to evaluate the ability of carbon ions to induce DNA double-strand breaks and apoptosis in the radio-resistant human HTB140 melanoma cells. The cells were irradiated with 12C ions having the linear energy transfer of 258 keV/mm. Irradiations were performed in the dose range from 2 to 16 Gy. Induction of DNA double-strand breaks was evaluated 2 hour after irradiation through expression of gH2AX protein. Increased level of gH2AX detected in irradiated samples was especially high after irradiation with 12 and 16 Gy. Dose dependent increase of apoptosis was detected 48 hour after irradiation by flow-cytometry, with the maximum value of 20.4% after irradiation with 16 Gy, and the apoptotic index of 9.3. Pro-apoptotic effects of carbon ion beams were confirmed by changes of key molecules of the mitochondrial apoptotic pathway, p53 protein expression, Bax/Bcl-2 ratio and caspase-3 activation.

Published
2013
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7. Effects of fotemustine or dacarbasine on a melanoma cell line pretreated with therapeutic proton irradiation

Author

Privitera Giuseppe, Iannolo Gioacchin, Valastro Lucia M, Žakula Jelena J, Korićanac Lela B, Ristić-Fira Aleksandra M, Cuttone Giacomo, and Petrović Ivan M

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Considering that HTB140 melanoma cells have shown a poor response to either protons or alkylating agents, the effects of a combined use of these agents have been analysed. Methods Cells were irradiated in the middle of the therapeutic 62 MeV proton spread out Bragg peak (SOBP). Irradiation doses were 12 or 16 Gy and are those frequently used in proton therapy. Four days after irradiation cells were treated with fotemustine (FM) or dacarbazine (DTIC). Drug concentrations were 100 and 250 μM, values close to those that produce 50% of growth inhibition. Cell viability, proliferation, survival and cell cycle distribution were assessed 7 days after irradiation that corresponds to more than six doubling times of HTB140 cells. In this way incubation periods providing the best single effects of drugs (3 days) and protons (7 days) coincided at the same time. Results Single proton irradiations have reduced the number of cells to ~50%. FM caused stronger cell inactivation due to its high toxicity, while the effectiveness of DTIC, that was important at short term, almost vanished with the incubation of 7 days. Cellular mechanisms triggered by proton irradiation differently influenced the final effects of combined treatments. Combination of protons and FM did not improve cell inactivation level achieved by single treatments. A low efficiency of the single DTIC treatment was overcome when DTIC was introduced following proton irradiation, giving better inhibitory effects with respect to the single treatments. Most of the analysed cells were in G1/S phase, viable, active and able to replicate DNA. Conclusion The obtained results are the consequence of a high resistance of HTB140 melanoma cells to protons and/or drugs. The inactivation level of the HTB140 human melanoma cells after protons, FM or DTIC treatments was not enhanced by their combined application.

Published
2009
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8. Enhanced Bioactivity of Quercetin-Tetrahydroisoquinoline Derivatives: Effect on Lipophilicity, Enzymes Inhibition, Antioxidant Potential, and Cytotoxicity.

Author

Vučkovski M, Filipović A, Jadranin M, Korićanac L, Žakula J, Bondžić BP, and Bondžić AM

Subjects
Humans, Cell Line, Tumor, Sodium-Potassium-Exchanging ATPase metabolism, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Antineoplastic Agents pharmacology, Antineoplastic Agents chemistry, Hydrophobic and Hydrophilic Interactions, Cell Survival drug effects, Antioxidants pharmacology, Antioxidants chemistry, Quercetin pharmacology, Quercetin chemistry, Tetrahydroisoquinolines pharmacology, Tetrahydroisoquinolines chemistry, Acetylcholinesterase metabolism, Cholinesterase Inhibitors pharmacology, Cholinesterase Inhibitors chemistry, Butyrylcholinesterase metabolism
Abstract

Quercetin, a well-known flavonoid with significant medicinal potential, was derivatized at the C8 position with a tetrahydroisoquinoline (THIQ) moiety, and physicochemical and pharmacological properties, inhibition potential, antioxidant activity, and cytotoxicity of new compounds were evaluated. Physicochemical and pharmacological properties, including lipophilicity, membrane permeability, and P-glycoprotein substrate affinity, were assessed theoretically using the SwissADME software. The metal-chelating ability of the new compounds was evaluated on metal ions Fe 2+ , Zn 2+ , and Cu 2+ , whose homeostasis disruption is linked to the development of Alzheimer's disease. Inhibition potential was tested on the cholinergic enzymes acetylcholinesterase and butyrylcholinesterase, as well as Na + , K + -ATPase, an enzyme commonly overexpressed in tumours. Antioxidant potential was assessed using the DPPH assay. Cytotoxicity studies were conducted on healthy MRC-5 cells and three cancer cell lines: HeLa, MDA-231, and MDA-468. The results indicated that derivatization of quercetin with THIQ yielded compounds with lower toxicity, preserved chelating ability, improved antioxidant potential, increased selectivity toward the cholinergic enzyme butyrylcholinesterase, and enhanced inhibition potential toward Na + , K + -ATPase and butyrylcholinesterase compared to quercetin alone. Therefore, the synthesized derivatives represent compounds with an improved profile and could be promising candidates for further optimization in developing drugs for neurodegenerative and cancer diseases.

Published
2024
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9. Unveiling Anticancer Potential of COX-2 and 5-LOX Inhibitors: Cytotoxicity, Radiosensitization Potential and Antimigratory Activity against Colorectal and Pancreatic Carcinoma.

Author

Bošković J, Dobričić V, Keta O, Korićanac L, Žakula J, Dinić J, Jovanović Stojanov S, Pavić A, and Čudina O

Abstract

Apart from cytotoxicity, inhibitors of the COX-2 enzyme have demonstrated additional effects important for cancer treatment (such as radiosensitization of tumor cells and cell antimigratory effects); however, the relationship between the inhibition of other inflammation-related enzyme 5-LOX inhibitors and anticancer activity is still not well understood. In our study, the cytotoxicity of thirteen COX-2 and 5-LOX inhibitors previously presented by our group ( 1 - 13 ) was tested on three cancer cell lines (HCT 116, HT-29 and BxPC-3) and one healthy cell line (MRC-5). Compounds 3 , 5 , 6 and 7 showed moderate cytotoxicity, but good selectivity towards cancer cell lines. IC 50 values were in the range of 22.99-51.66 µM (HCT 116 cell line), 8.63-41.20 µM (BxPC-3 cell line) and 24.78-81.60 µM (HT-29 cell line; compound 7 > 100 µM). In comparison to tested, commercially available COX-2 and 5-LOX inhibitors, both cytotoxicity and selectivity were increased. The addition of compounds 6 and 7 to irradiation treatment showed the most significant decrease in cell proliferation of the HT-29 cell line ( p < 0.001). The antimigratory potential of the best dual COX-2 and 5-LOX inhibitors (compounds 1 , 2 , 3 and 5 ) was tested by a wound-healing assay using the SW620 cell line. Compounds 1 and 3 were singled out as compounds with the most potent effect (relative wound closure was 3.20% (24 h), 5,08% (48 h) for compound 1 and 3.86% (24 h), 7.68% (48 h) for compound 3 ). Considering all these results, compound 3 stood out as the compound with the most optimal biological activity, with the best dual COX-2 and 5-LOX inhibitory activity, good selectivity towards tested cancer cell lines, significant cell antimigratory potential and a lack of toxic effects at therapeutic doses.

Published
2024
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10. Synergistic Enhancement of Targeted Wound Healing by Near-Infrared Photodynamic Therapy and Silver Metal-Organic Frameworks Combined with S- or N-Doped Carbon Dots.

Author

Nešić MD, Popović IA, Žakula J, Korićanac L, Filipović Tričković J, Valenta Šobot A, Jiménez MV, Algarra M, Dučić T, and Stepić M

Abstract

The literature data emphasize that nanoparticles might improve the beneficial effects of near-infrared light (NIR) on wound healing. This study investigates the mechanisms of the synergistic wound healing potential of NIR light and silver metal-organic frameworks combined with nitrogen- and sulfur-doped carbon dots (AgMOFsN-CDs and AgMOFsS-CDs, respectively), which was conducted by testing the fibroblasts viability, scratch assays, biochemical analysis, and synchrotron-based Fourier transform infrared (SR-FTIR) cell spectroscopy and imaging. Our findings reveal that the combined treatment of AgMOFsN-CDs and NIR light significantly increases cell viability to nearly 150% and promotes cell proliferation, with reduced interleukin-1 levels, suggesting an anti-inflammatory response. SR-FTIR spectroscopy shows this combined treatment results in unique protein alterations, including increased α-helix structures and reduced cross-β. Additionally, protein synthesis was enhanced upon the combined treatment. The likely mechanism behind the observed changes is the charge-specific interaction of N-CDs from the AgMOFsN-CDs with proteins, enhanced by NIR light due to the nanocomposite's optical characteristics. Remarkably, the complete wound closure in the in vitro scratch assay was achieved exclusively with the combined NIR and AgMOFsN-CDs treatment, demonstrating the promising application of combined AgMOFsN-CDs with NIR light photodynamic therapy in regenerative nanomedicine and tissue engineering.

Published
2024
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11. Spectroscopic signature of ZnO NP-induced cell death modalities assessed by non-negative PCA.

Author

Miletić M, Vilotić A, Korićanac L, Žakula J, Krivokuća MJ, Dohčević-Mitrović Z, and Aškrabić S

Subjects
Humans, Spectrum Analysis, Raman methods, Cell Death, Lipids, Zinc Oxide toxicity, Zinc Oxide chemistry, Nanoparticles chemistry
Abstract

Selective cytotoxicity of ZnO nanoparticles among different cell types and cancer and non-cancerous cells has been demonstrated earlier. In the view of anticancer potential of ZnO nanoparticles and their presence in numerous industrial products, it is of great importance to carefully evaluate their effects and mechanisms of action in both cancerous and healthy cells. In this paper, the effects of ZnO nanoparticles on cancerous HeLa and non-cancerous MRC-5 cells are investigated by studying the changes in the vibrational properties of the cells using Raman spectroscopy. Both types of cells were incubated with ZnO nanoparticles of average size 40 nm in the doses from the range 10-40 µg/ml for the period of 48 h, after which Raman spectra were collected. Raman modes' intensity ratios I 1659 /I 1444 , I 2855 /I 2933 and I 1337 /I 1305 were determined as spectral markers of the cytotoxic effect of ZnO in both cell types. Non-negative principal component analysis was used instead of standard one for analysis and detection of spectral features characteristic for nanoparticle-treated cells. The first several non-negative loading vectors obtained in this analysis coincided remarkably well with the Raman spectra of particular biomolecules, showing increase of lipid and decrease of nucleic acids and protein content. Our study pointed out that Raman spectral markers of lipid unsaturation, especially I 1270 /I 1300 , are relevant for tracing the cytotoxic effect of ZnO nanoparticles on both cancerous and non-cancerous cells. The change of these spectral markers is correlated to the dose of applied nanoparticles and to the degree of cellular damage. Furthermore, great similarity of spectral features of increasing lipids to spectral features of phosphatidylserine, one of the main apoptotic markers, was recognized in treated cells. Finally, the results strongly indicated that the degree of lipid saturation, presented in the cells, plays an important role in the interaction of cells with nanoparticles., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published
2023
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12. Controlled killing of human cervical cancer cells by combined action of blue light and C-doped TiO 2 nanoparticles.

Author

Matijević M, Žakula J, Korićanac L, Radoičić M, Liang X, Mi L, Tričković JF, Šobot AV, Stanković MN, Nakarada Đ, Mojović M, Petković M, Stepić M, and Nešić MD

Subjects
Female, Humans, Carbon chemistry, Cell Survival drug effects, HeLa Cells, Photochemotherapy, Light, Nanoparticles chemistry, Photosensitizing Agents pharmacology, Photosensitizing Agents chemistry, Photosensitizing Agents chemical synthesis, Reactive Oxygen Species metabolism, Titanium chemistry, Titanium pharmacology, Uterine Cervical Neoplasms drug therapy, Uterine Cervical Neoplasms pathology
Abstract

In this study, C-doped TiO 2 nanoparticles (C-TiO 2 ) were prepared and tested as a photosensitizer for visible-light-driven photodynamic therapy against cervical cancer cells (HeLa). X-ray diffraction and Transmission Electron Microscopy confirmed the anatase form of nanoparticles, spherical shape, and size distribution from 5 to 15 nm. Ultraviolet-visible light spectroscopy showed that C doping of TiO 2 enhances the optical absorption in the visible light range caused by a bandgap narrowing. The photo-cytotoxic activity of C-TiO 2 was investigated in vitro against HeLa cells. The lack of dark cytotoxicity indicates good biocompatibility of C-TiO 2 . In contrast, a combination with blue light significantly reduced the survival of HeLa cells: illumination only decreased cell viability by 30% (15 min of illumination, 120 µW power), and 60% when HeLa cells were preincubated with C-TiO 2 . We have also confirmed blue light-induced C-TiO 2 -catalyzed generation of reactive oxygen species in vitro and intracellularly. Oxidative stress triggered by C-TiO 2 /blue light was the leading cause of HeLa cell death. Fluorescent labeling of treated HeLa cells showed distinct morphological changes after the C-TiO 2 /blue light treatment. Unlike blue light illumination, which caused the appearance of large necrotic cells with deformed nuclei, cytoplasm swelling, and membrane blebbing, a combination of C-TiO 2 /blue light leads to controlled cell death, thus providing a better outcome of local anticancer therapy., (© 2021. The Author(s), under exclusive licence to European Photochemistry Association, European Society for Photobiology.)

Published
2021
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13. SR-FTIR spectro-microscopic interaction study of biochemical changes in HeLa cells induced by Levan-C 60 , Pullulan-C 60 , and their cholesterol-derivatives.

Author

Nešić MD, Dučić T, Liang X, Algarra M, Mi L, Korićanac L, Žakula J, Kop TJ, Bjelaković MS, Mitrović A, Gojgić Cvijović GD, Stepić M, and Petković M

Subjects
Adsorption, Cell Adhesion, Cell Proliferation, Diphenhydramine chemistry, Hep G2 Cells, Humans, Hydrogels, Lidocaine chemistry, Propranolol chemistry, Spectroscopy, Fourier Transform Infrared, Synchrotrons, Cell Culture Techniques methods, Fructans chemistry, Glucans chemistry, Hyaluronic Acid chemistry, Maleates chemistry
Abstract

Objects of the present study are improved fullerene C 60 drug carrier properties trough encapsulation by microbial polysaccharides, levan (LEV), pullulan (PUL), and their hydrophobized cholesterol-derivatives (CHL and CHP), that show better interaction with cancer cells. The zeta potential, polydispersity index, and the diameter of particles were determined, and their cytotoxicity against three cancer cell lines were tested. Biochemical changes in HeLa cells are analyzed by synchrotron radiation (SR) FTIR spectro-microscopy combined with the principal component analysis (PCA). The most significant changes occur in HeLa cells treated with LEV-C 60 and correspond to the changes in the protein region, i.e. Amide I band, and the changes in the structure of lipid bodies and membrane fluidity are evident. The highest cytotoxicity was also induced by LEV-C 60 . In HeLa cells, cytotoxicity could not be strictly associated with biochemical changes in lipids, proteins and nucleic acids, but these findings are significant contribution to the study of the mechanism of interaction of C 60 -based nanoparticles with cellular biomolecules. In conclusion, LEV, PUL, CHL, and CHP enhanced fullerene C 60 potential to be used as target drug delivery system with the ability to induce specific intracellular changes in HeLa cancer cells., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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14. Combined Raman and AFM detection of changes in HeLa cervical cancer cells induced by CeO 2 nanoparticles - molecular and morphological perspectives.

Author

Miletić M, Aškrabić S, Rüger J, Vasić B, Korićanac L, Mondol AS, Dellith J, Popp J, Schie IW, and Dohčević-Mitrović Z

Subjects
Cell Membrane chemistry, Cerium chemistry, Dextrans chemistry, HeLa Cells, Humans, Microscopy, Atomic Force, Principal Component Analysis, Pseudopodia chemistry, Regression Analysis, Spectrum Analysis, Raman, Surface Properties, Cell Membrane drug effects, Metal Nanoparticles chemistry, Pseudopodia drug effects
Abstract

The design of nanoparticles for application in medical diagnostics and therapy requires a thorough understanding of various aspects of nanoparticle-cell interactions. In this work, two unconventional methods for the study of nanoparticle effects on cells, Raman spectroscopy and atomic force microscopy (AFM), were employed to track the molecular and morphological changes that are caused by the interaction between cervical carcinoma-derived HeLa cells and two types of cerium dioxide (CeO 2 ) nanoparticles, ones with dextran coating and the others with no coating. Multivariate statistical analyses of Raman spectra, such as principal component analysis and partial least squares regression, were applied in order to extract the variations in the vibrational features of cell biomolecules and through them, the changes in biomolecular content and conformation. Both types of nanoparticles induced changes in DNA, lipid and protein contents of the cell and variations of the protein secondary structure, whereas dextran-coated CeO 2 affected the cell-growth rate to a higher extent. Atomic force microscopy showed changes in cell roughness, cell height and nanoparticle effects on surface molecular layers. The method differentiated between the impact of dextran-coated and uncoated CeO 2 nanoparticles with higher precision than performed viability tests. Due to the holistic approach provided by vibrational information on the overall cell content, accompanied by morphological modifications observed by high-resolution microscopy, this methodology offers a wider picture of nanoparticle-induced cell changes, in a label-free single-cell manner.

Published
2020
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15. Elucidation of the binding sites of two novel Ru(II) complexes on bovine serum albumin.

Author

Nišavić M, Masnikosa R, Butorac A, Perica K, Rilak A, Korićanac L, Hozić A, Petković M, and Cindrić M

Subjects
Animals, Binding Sites, Cattle, Mass Spectrometry, Ruthenium chemistry, Serum Albumin, Bovine chemistry
Abstract

Hyphenated mass spectrometry (MS) techniques have attained an important position in analysis of covalent and non-covalent interactions of metal complexes with peptides and proteins. The aim of the present study was to qualitatively and quantitatively determine ruthenium binding sites on a protein using tandem mass spectrometry and allied techniques, i.e. liquid chromatography (LC) and inductively coupled plasma optical emission spectrometry (ICP-OES). For that purpose, two newly synthesized Ru(II) complexes of a meridional geometry, namely mer-[Ru(4' Cl-tpy)(en)Cl](+) (1) and mer-[Ru(4' Cl-tpy)(dach)Cl](+) (2) (where 4' Cl-tpy=4'-chloro-2,2':6',2″-terpyridine, en=1,2-diaminoethane and dach=1,2-diaminocyclohexane), and bovine serum albumin were used. The binding of the complexes to the protein was investigated by means of size exclusion- and reversed phase-LC, ICP OES, matrix-assisted laser desorption ionization MS and MS/MS. Ruthenated peptide sequence and a binding target amino acid were revealed through accurate elucidation of MS/MS spectra. The results obtained in this study suggest a high binding capacity of the protein towards both complexes, with up to 5.77±0.14 and 6.95±0.43mol of 1 and 2 bound per mol of protein, respectively. The proposed binding mechanism for the selected complexes includes the release of Cl ligand, its replacement with water molecule and further coordination to electron donor histidine residue., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2016
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16. Radiation dose determines the method for quantification of DNA double strand breaks.

Author

Bulat T, Keta O, Korićanac L, Žakula J, Petrović I, Ristić-Fira A, and Todorović D

Subjects
Blotting, Western, Cell Line, Tumor radiation effects, Humans, Microscopy, Fluorescence, Phosphorylation, DNA Breaks, Double-Stranded radiation effects, Dose-Response Relationship, Radiation, Histones radiation effects, Melanoma radiotherapy, Radiometry methods
Abstract

Ionizing radiation induces DNA double strand breaks (DSBs) that trigger phosphorylation of the histone protein H2AX (γH2AX). Immunofluorescent staining visualizes formation of γH2AX foci, allowing their quantification. This method, as opposed to Western blot assay and Flow cytometry, provides more accurate analysis, by showing exact position and intensity of fluorescent signal in each single cell. In practice there are problems in quantification of γH2AX. This paper is based on two issues: the determination of which technique should be applied concerning the radiation dose, and how to analyze fluorescent microscopy images obtained by different microscopes. HTB140 melanoma cells were exposed to γ-rays, in the dose range from 1 to 16 Gy. Radiation effects on the DNA level were analyzed at different time intervals after irradiation by Western blot analysis and immunofluorescence microscopy. Immunochemically stained cells were visualized with two types of microscopes: AxioVision (Zeiss, Germany) microscope, comprising an ApoTome software, and AxioImagerA1 microscope (Zeiss, Germany). Obtained results show that the level of γH2AX is time and dose dependent. Immunofluorescence microscopy provided better detection of DSBs for lower irradiation doses, while Western blot analysis was more reliable for higher irradiation doses. AxioVision microscope containing ApoTome software was more suitable for the detection of γH2AX foci.

Published
2016
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17. Radiosensitivity of human ovarian carcinoma and melanoma cells to γ-rays and protons.

Author

Keta O, Todorović D, Popović N, Korićanac L, Cuttone G, Petrović I, and Ristić-Fira A

Abstract

Introduction: Proton radiation offers physical advantages over conventional radiation. Radiosensitivity of human 59M ovarian cancer and HTB140 melanoma cells was investigated after exposure to γ-rays and protons., Material and Methods: Irradiations were performed in the middle of a 62 MeV therapeutic proton spread out Bragg peak with doses ranging from 2 to 16 Gy. The mean energy of protons was 34.88 ±2.15 MeV, corresponding to the linear energy transfer of 4.7 ±0.2 keV/µm. Irradiations with γ-rays were performed using the same doses. Viability, proliferation and survival were assessed 7 days after both types of irradiation while analyses of cell cycle and apoptosis were performed 48 h after irradiation., Results: Results showed that γ-rays and protons reduced the number of viable cells for both cell lines, with stronger inactivation achieved after irradiation with protons. Surviving fractions for 59M were 0.91 ±0.01 for γ-rays and 0.81 ±0.01 for protons, while those for HTB140 cells were 0.93 ±0.01 for γ-rays and 0.86 ±0.01 for protons. Relative biological effectiveness of protons, being 2.47 ±0.22 for 59M and 2.08 ±0.36 for HTB140, indicated that protons provoked better cell elimination than γ-rays. After proton irradiation proliferation capacity of the two cell lines was slightly higher as compared to γ-rays. Proliferation was higher for 59M than for HTB140 cells after both types of irradiation. Induction of apoptosis and G2 arrest detected after proton irradiation were more prominent in 59M cells., Conclusions: The obtained results suggest that protons exert better antitumour effects on ovarian carcinoma and melanoma cells than γ-rays. The dissimilar response of these cells to radiation is related to their different features.

Published
2014
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18. Proton inactivation of melanoma cells enhanced by fotemustine.

Author

Ristić-Fira A, Korićanac L, Žakula J, Keta O, Iannolo G, Cuttone G, and Petrović I

Subjects
Cell Line, Tumor, Combined Modality Therapy, Humans, Melanoma pathology, Proton Therapy, Radiation Tolerance drug effects, Radiotherapy, Conformal methods, Antineoplastic Agents administration & dosage, Cell Survival drug effects, Cell Survival radiation effects, Melanoma drug therapy, Melanoma radiotherapy, Nitrosourea Compounds administration & dosage, Organophosphorus Compounds administration & dosage
Abstract

Response of human HTB140 melanoma cells to proton irradiation in combination with fotemustine (FM) was investigated. Effects of these agents were analysed on cell proliferation and induction of apoptosis. Cells pretreated with 100- or 250-µM of FM were irradiated in the middle of the therapeutic 62-MeV proton spread-out Bragg peak, with a dose of 16 Gy. All treatments reduced proliferation and survival of melanoma cells. The most pronounced effects of the combined treatment were obtained for cell survivals. The level of apoptosis increased after all applied treatments. Particularly good pro-apoptotic effect was achieved when proton irradiation was combined with 250 μM of FM. This was followed by the increased expression of p53 gene. The obtained results have shown that combined application of FM and protons significantly reduced growth of this resistant melanoma cell line.

Published
2011
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19. Response of a radioresistant human melanoma cell line along the proton spread-out Bragg peak.

Author

Petrović I, Ristić-Fira A, Todorović D, Korićanac L, Valastro L, Cirrone P, and Cuttone G

Subjects
Cell Cycle radiation effects, Cell Line, Tumor, Cell Proliferation radiation effects, Cell Survival radiation effects, Dose-Response Relationship, Radiation, Humans, Linear Energy Transfer, Melanoma pathology, Relative Biological Effectiveness, Melanoma radiotherapy, Proton Therapy, Radiation Tolerance
Abstract

Purpose: To analyse changes of cell inactivation and proliferation under therapeutic irradiation conditions along the proton spread out Bragg peak (SOBP) with particular emphasis on its distal declining edge., Materials and Methods: HTB140 cells were irradiated at four positions: plateau, middle, distal end and distal declining edge of the 62 MeV proton SOBP. Doses ranged from 2-16 Gy. They were normalised in the middle of SOBP and delivered following the axial physical dose profile. Survival, proliferation and cell cycle were assessed seven days after irradiation., Results: Moving from proximal to distal irradiation position surviving fractions at 2 Gy (SF2) decreased from 0.88-0.59. Increased radiosensitivity of the cells was noticed for the doses below 4 Gy, resulting in two gradients of cell inactivation, stronger for lower and weaker for higher doses. Relative biological effectiveness (RBE) increased from 1.68-2.84 at the distal end of SOBP. A further rise of RBE reaching 7.14 was at its distal declining edge. Following the axial physical dose profile of SOBP the strongest inactivation was attained at its distal end and was comparable to that at its declining edge., Conclusions: Survival data confirmed very high radioresistance of HTB140 cells. An effect similar to low-dose hyper radiosensitivity (HRS) was observed for order of magnitude larger doses. Better response of cells to protons than to gamma-rays was illustrated by rather high RBE. Strong killing ability at the SOBP distal declining edge was the consequence of increasing proton linear energy transfer.

Published
2010
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