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Your search keyword '"MANTI, LORENZO"' showing total 45 results
Start Over Author "MANTI, LORENZO" Publication Type Academic Journals
45 results on '"MANTI, LORENZO"'

5. RadPhysBio: A Radiobiological Database for the Prediction of Cell Survival upon Exposure to Ionizing Radiation.

Author

Zanni, Vassiliki, Papakonstantinou, Dimitris, Kalospyros, Spyridon A., Karaoulanis, Dimitris, Biz, Gökay Mehmet, Manti, Lorenzo, Adamopoulos, Adam, Pavlopoulou, Athanasia, and Georgakilas, Alexandros G.

Subjects
IONIZING radiation, DATABASES, CELL survival, LINEAR energy transfer, RADIATION exposure, MACHINE learning, PYTHON programming language
Abstract

Based on the need for radiobiological databases, in this work, we mined experimental ionizing radiation data of human cells treated with X-rays, γ-rays, carbon ions, protons and α-particles, by manually searching the relevant literature in PubMed from 1980 until 2024. In order to calculate normal and tumor cell survival α and β coefficients of the linear quadratic (LQ) established model, as well as the initial values of the double-strand breaks (DSBs) in DNA, we used WebPlotDigitizer and Python programming language. We also produced complex DNA damage results through the fast Monte Carlo code MCDS in order to complete any missing data. The calculated α/β values are in good agreement with those valued reported in the literature, where α shows a relatively good association with linear energy transfer (LET), but not β. In general, a positive correlation between DSBs and LET was observed as far as the experimental values are concerned. Furthermore, we developed a biophysical prediction model by using machine learning, which showed a good performance for α, while it underscored LET as the most important feature for its prediction. In this study, we designed and developed the novel radiobiological 'RadPhysBio' database for the prediction of irradiated cell survival (α and β coefficients of the LQ model). The incorporation of machine learning and repair models increases the applicability of our results and the spectrum of potential users. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Impact on the Transcriptome of Proton Beam Irradiation Targeted at Healthy Cardiac Tissue of Mice.

Author

Sala, Claudia, Tarozzi, Martina, Simonetti, Giorgia, Pazzaglia, Martina, Cammarata, Francesco Paolo, Russo, Giorgio, Acquaviva, Rosaria, Cirrone, Giuseppe Antonio Pablo, Petringa, Giada, Catalano, Roberto, Elia, Valerio Cosimo, Fede, Francesca, Manti, Lorenzo, Castellani, Gastone, Remondini, Daniel, and Zironi, Isabella

Subjects
HEART anatomy, HEART physiology, PROTON therapy, RADIOTHERAPY, ELECTROMAGNETISM, RESEARCH funding, RADIATION, HEART, MICE, ENERGY metabolism, GENE expression, GENE expression profiling, ANIMAL experimentation, RADIATION doses
Abstract

Simple Summary: The nature of different types of ionizing radiation is central to the modality of affecting biological targets. The main data library on radiotherapy effects we can access is on photon sources, and any other type of radiation is compared to that, not always considering that different physical features might contribute in quite different ways to the quality of visible effects. A large body of study already supports this vision, but a lot of work is still to be done, particularly on irradiated healthy tissue in the vicinity of the cancer target. This study aims to gain information on the effects of anti-cancer therapeutic protons as a function of radiation dose and time post-irradiation on healthy cardiac tissue through the analysis of transcriptionally activated genes and relative molecular pathways. Proton beam therapy is considered a step forward with respect to electromagnetic radiation, thanks to the reduction in the dose delivered. Among unwanted effects to healthy tissue, cardiovascular complications are a known long-term radiotherapy complication. The transcriptional response of cardiac tissue from xenografted BALB/c nude mice obtained at 3 and 10 days after proton irradiation covering both the tumor region and the underlying healthy tissue was analyzed as a function of dose and time. Three doses were used: 2 Gy, 6 Gy, and 9 Gy. The intermediate dose had caused the greatest impact at 3 days after irradiation: at 2 Gy, 219 genes were differently expressed, many of them represented by zinc finger proteins; at 6 Gy, there were 1109, with a predominance of genes involved in energy metabolism and responses to stimuli; and at 9 Gy, there were 105, mainly represented by zinc finger proteins and molecules involved in the regulation of cardiac function. After 10 days, no significant effects were detected, suggesting that cellular repair mechanisms had defused the potential alterations in gene expression. The nonlinear dose–response curve indicates a need to update the models built on photons to improve accuracy in health risk prediction. Our data also suggest a possible role for zinc finger protein genes as markers of proton therapy efficacy. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Fluorescence In Situ Hybridization-Based Chromosome Aberration Analysis Unveils the Mechanistic Basis for Boron-Neutron Capture Therapy's Radiobiological Effectiveness.

Author

Elia, Valerio Cosimo, Fede, Francesca, Bortolussi, Silva, Cansolino, Laura, Ferrari, Cinzia, Formicola, Emilia, Postuma, Ian, and Manti, Lorenzo

Subjects
BORON-neutron capture therapy, CHROMOSOME abnormalities, CHROMOSOME analysis, LINEAR energy transfer, NUCLEAR reactions, CHROMOSOMES, KARYOTYPES
Abstract

Boron-Neutron Capture Therapy (BNCT) is a tumor-selective radiotherapy, based on the nuclear capture reaction 10B(n,α)7Li producing short range α-particles and recoiling 7Li nuclei exclusively confined to boron-enriched cancer cells. These particles possess high Linear Energy Transfer (LET) and mainly generate clustered DNA strand breaks, which are less faithfully restored by intracellular repair. Mis-rejoined breaks yield chromosome aberrations (CAs), which, for high-LET radiation, are more complex in nature than after sparsely ionizing photons/electrons used in conventional radiotherapy, which leads to increased cell-killing ability. However, such a radiobiological tenet of BNCT has been scantily studied at the DNA level. Therefore, the aim of this work was to evaluate CAs induced by BNCT in comparison to X-rays in genomically stable normal human epithelial mammary MCF10A cells. Two Fluorescence In Situ Hybridization (FISH)-based techniques were applied to calyculin A-induced prematurely condensed chromosomes: Whole Chromosome Painting and multicolor(m)-FISH. Not only did BNCT induce a greater CA frequency than X-ray irradiation, but m-FISH karyotype-wide analysis confirmed that CAs following BNCT exhibited a much higher degree of complexity compared to X-rays. To our knowledge, this is the first time that such evidence supporting the radiobiological superiority of BNCT has been shown. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Seed Priming by Low-Dose Radiation Improves Growth of Lactuca sativa and Valerianella locusta.

Author

Sorrentino, Maria Cristina, Granata, Angelo, Cantalupo, Martina, Manti, Lorenzo, Pugliese, Mariagabriella, Giordano, Simonetta, Capozzi, Fiore, and Spagnuolo, Valeria

Subjects
LETTUCE, PLANT life cycles, SEEDS, RADIATION, GERMINATION, BIOMASS production
Abstract

Valerian salad and lettuce are edible species that are easy to grow rapidly, and have traits useful for commercial purposes. The consumption of these species is increasing worldwide for their nutritional properties. Seed germination and seedling development are critical stages in the life cycle of plants. Seed priming, including the use of high-energy radiation, is a set of techniques based on the idea that low stress levels stimulate plant responses, thereby improving seed germination and plant growth. In this study, we evaluated in hydroponic culture (i) the germination performance; (ii) morphological traits; and (iii) antioxidant and phenol contents at different endpoints in Lactuca sativa and Valerianella locusta that were developed from seeds exposed to X-rays (1 Gy and 10 Gy doses). Under radiation, biomass production increased in both species, especially in lettuce, where also a reduction in the mean germination time occurred. Radiation increased the level of phenols during the first growth weeks, under both doses for lettuce, and only 1 Gy was required for valerian salad. The species-specific responses observed in this research suggest that the use of radiations in seed priming needs to be customized to the species. [ABSTRACT FROM AUTHOR]

Published
2024
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11. A Comparison between Different Acquisition Modes for FT-IR Spectra Collection from Human Cell Lipid Extracts †.

Author

Cardamuro, Valeria, Faramarzi, Bahar, Moggio, Martina, Diano, Nadia, Manti, Lorenzo, Portaccio, Marianna, and Lepore, Maria

Subjects
FOURIER transform infrared spectroscopy, CELL physiology, LIPIDS, ORGANIC compounds, REFLECTANCE
Abstract

Lipids are organic compounds that contribute to numerous cellular functions. Fourier Transform Infrared spectroscopy can be particularly useful in investigating the biochemical features of the lipid content of cells and their changes induced by interaction with physicochemical external agents. In the present work, we aim to investigate the extract of lipids from human cells to compare the results obtained by using two different geometries: transmission and attenuated total reflectance. Multiple acquisitions of spectra were carried out and statistical criteria were applied for monitoring and comparing them. The positive and negative aspects of the two examined acquisition modes are presented and discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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14. A Sphingolipidomic Profiling Approach for Comparing X-ray-Exposed and Unexposed HepG2 Cells.

Author

Moggio, Martina, Faramarzi, Bahar, Portaccio, Marianna, Manti, Lorenzo, Lepore, Maria, and Diano, Nadia

Subjects
ELECTROSPRAY ionization mass spectrometry, MEMBRANE lipids, TUMOR growth
Abstract

An analytical method based on tandem mass spectrometry-shotgun is presently proposed to obtain sphingolipidomic profiles useful for the characterization of lipid extract from X-ray-exposed and unexposed hepatocellular carcinoma cells (HepG2). To obtain a targeted lipidic profile from a specific biological system, the best extraction method must be identified before instrumental analysis. Accordingly, four different classic lipid extraction protocols were compared in terms of efficiency, specificity, and reproducibility. The performance of each procedure was evaluated using the Fourier-transform infrared spectroscopic technique; subsequently, the quality of extracts was estimated using electrospray ionization tandem mass spectrometry. The selected procedure based on chloroform/methanol/water was successfully used in mass spectrometry-based shotgun sphingolipidomics, allowing for evaluation of the response of cells to X-ray irradiation, the most common anticancer therapy. Using a relative quantitative approach, the changes in the sphingolipid profiles of irradiated cell extracts were demonstrated, confirming that lipidomic technologies are also useful tools for studying the key sphingolipid role in regulating cancer growth during radiotherapy. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Evaluation of morpho-physiological responses and genotoxicity in Eruca sativa (Mill.) grown in hydroponics from seeds exposed to X-rays.

Author

Sorrentino, Maria Cristina, Granata, Angelo, Pugliese, Mariagabriella, Manti, Lorenzo, Giordano, Simonetta, Capozzi, Fiore, and Spagnuolo, Valeria

Subjects
GENETIC toxicology, HYDROPONICS, X-rays, CULTIVATED plants, SEEDS, IONIZING radiation, YANG-Mills theory
Abstract

Due to its potential applications in cultivated plants, ionizing radiation (IR) and its effect on organisms is increasingly studied. Here we measured the effects of ionizing radiation on Eruca sativa by analyzing plants from irradiated seeds (1 and 10 Gy) grown in hydroponics. We measured several morpho-physiological traits and genotoxicity. Radiation stress induced a noticeable variability of the morphophysiological traits highlighting decreased plant vigor. Shoot length and leaf number were significantly higher in 1 Gy-treated samples, whereas root length was significantly higher in 10 Gy treated plants. Stomata number significantly increased with IR dose, whereas both pigment and Rubisco content decreased under radiation stress. Phenol content significantly increased in 1 Gy treated samples, otherwise from total antioxidants, which were not different from control. Most results could find a feasible explanation in a hormesis-like pattern and in a decreased plant vigor under radiation stress. IR induced genotoxic damage, evaluated by ISSR markers, in 15 day old leaves; specifically, a severe decrease in the genome template stability was observed. However, a partial recovery occurred after 2 weeks, especially under the lowest dose (i.e., 1 Gy), suggesting that DNA damage detection and repair mechanisms are active. Pigment content and genotoxic damage may serve as proxies for evaluating plant responses to IR stress, since they show univocal dose-dependent trends. The use of more checkpoints for analyses and more doses over a wider range, as well as the focus on different metabolites, could help elucidate plant response in terms of morpho-physiological changes. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Differential Radiomodulating Action of Olea europaea L. cv. Caiazzana Leaf Extract on Human Normal and Cancer Cells: A Joint Chemical and Radiobiological Approach.

Author

Pacifico, Severina, Bláha, Pavel, Faramarzi, Shadab, Fede, Francesca, Michaličková, Katarina, Piccolella, Simona, Ricciardi, Valerio, and Manti, Lorenzo

Subjects
OLIVE leaves, GENETIC toxicology, CANCER cells, OLIVE, LIQUID chromatography-mass spectrometry, POLYPHENOLS
Abstract

The OLC Presence Exacerbates Radiation-Induced DNA Damage in Cancer Cells When prostate DU145 and pancreatic PANC-1 cancer cell lines were subjected to the same experimental conditions as those adopted for the non-cancer cell lines HUVEC and MCF-10A, that is 24-h treatment with, and irradiation in the presence of, 12.5 g/mL OLC, the measured frequency of MN per BN cell was significantly higher than that observed in cancer cells irradiated without OLC (Figure 8). At the same dose, the protection afforded by OLC in MCF-10A was less but still statistically different (Figure 7B), with a yield of 0.945 MN/cell in the absence of OLC compared to a value of 0.831 MN/cell in OLC-treated MCF-10A cells ( I p i < 0.001). To assess the radiomodulating properties of OLC, the water-soluble extract was added at a final concentration of 12.5 L/mL to exponentially growing cells seeded at appropriate densities in T12.5 or T25 tissue culture flasks for senescence time-course experiments (around 1.5 × 10 SP 4 sp and 5 × 10 SP 4 sp cells/flask, respectively) or in Nunc™ (Thermo Fisher Scientific, Waltham, MA, USA) slide flasks (around 2 × 10 SP 4 sp cells/slide flask) for DNA damage evaluation by the CBMN assay. [Extracted from the article]

Published
2022
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19. Evaluation of Proton-Induced Biomolecular Changes in MCF-10A Breast Cells by Means of FT-IR Microspectroscopy.

Author

Ricciardi, Valerio, Portaccio, Marianna, Lasalvia, Maria, Cammarata, Francesco Paolo, Pisciotta, Pietro, Perna, Giuseppe, Capozzi, Vito, Petringa, Giada, Manti, Lorenzo, and Lepore, Maria

Subjects
DNA ligases, PARTICLE beams, MEMBRANE lipids, BREAST, DNA repair, DNA damage, FOURIER transforms
Abstract

Radiotherapy (RT) with accelerated beams of charged particles (protons and carbon ions), also known as hadrontherapy, is a treatment modality that is increasingly being adopted thanks to the several benefits that it grants compared to conventional radiotherapy (CRT) treatments performed by means of high-energy photons/electrons. Hence, information about the biomolecular effects in exposed cells caused by such particles is needed to better realize the underlying radiobiological mechanisms and to improve this therapeutic strategy. To this end, Fourier transform infrared microspectroscopy (μ-FT-IR) can be usefully employed, in addition to long-established radiobiological techniques, since it is currently considered a helpful tool for examining radiation-induced cellular changes. In the present study, MCF-10A breast cells were chosen to evaluate the effects of proton exposure using μ-FT-IR. They were exposed to different proton doses and fixed at various times after exposure to evaluate direct effects due to proton exposure and the kinetics of DNA damage repair. Irradiated and control cells were examined in transflection mode using low-e substrates that have been recently demonstrated to offer a fast and direct way to examine proton-exposed cells. The acquired spectra were analyzed using a deconvolution procedure and a ratiometric approach, both of which showed the different contributions of DNA, protein, lipid, and carbohydrate cell components. These changes were particularly significant for cells fixed 48 and 72 h after exposure. Lipid changes were related to variations in membrane fluidity, and evidence of DNA damage was highlighted. The analysis of the Amide III band also indicated changes that could be related to different enzyme contributions in DNA repair. [ABSTRACT FROM AUTHOR]

Published
2022
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20. A New Low-Energy Proton Irradiation Facility to Unveil the Mechanistic Basis of the Proton-Boron Capture Therapy Approach.

Author

Ricciardi, Valerio, Bláha, Pavel, Buompane, Raffaele, Crescente, Giuseppina, Cuttone, Giacomo, Gialanella, Lucio, Michaličková, Katarina, Pacifico, Severina, Porzio, Giuseppe, and Manti, Lorenzo

Subjects
NUCLEAR reactions, PARTICLE accelerators, NUCLEAR physics, PROTONS, PROTON beams, TANDEM mass spectrometry, ACCELERATOR mass spectrometry
Abstract

Featured Application: The application of the work described herein is twofold: the possibility of routinely irradiating biological samples with high accuracy in energy and dose at a low-energy particle accelerator to gain insights into fundamental mechanisms of the biological action of charged particles; in a broader scenario, the possibility to potentiate the therapeutic capabilities of protontherapy through a method based on a nuclear physics reaction. Protontherapy (PT) is a fast-growing cancer therapy modality thanks to much-improved normal tissue sparing granted by the charged particles' inverted dose-depth profile. Protons, however, exhibit a low biological effectiveness at clinically relevant energies. To enhance PT efficacy and counteract cancer radioresistance, Proton–Boron Capture Therapy (PBCT) was recently proposed. PBCT exploits the highly DNA-damaging α-particles generated by the p + 11B→3α (pB) nuclear reaction, whose cross-section peaks for proton energies of 675 keV. Although a significant enhancement of proton biological effectiveness by PBCT has been demonstrated for high-energy proton beams, validation of the PBCT rationale using monochromatic proton beams having energy close to the reaction cross-section maximum is still lacking. To this end, we implemented a novel setup for radiobiology experiments at a 3-MV tandem accelerator; using a scattering chamber equipped with an Au foil scatterer for beam diffusion on the biological sample, uniformity in energy and fluence with uncertainties of 2% and 5%, respectively, was achieved. Human cancer cells were irradiated at this beamline for the first time with 685-keV protons. The measured enhancement in cancer cell killing due to the 11B carrier BSH was the highest among those thus far observed, thereby corroborating the mechanistic bases of PBCT. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Radiobiological Outcomes, Microdosimetric Evaluations and Monte Carlo Predictions in Eye Proton Therapy.

Author

Petringa, Giada, Calvaruso, Marco, Conte, Valeria, Bláha, Pavel, Bravatà, Valentina, Cammarata, Francesco Paolo, Cuttone, Giacomo, Forte, Giusi Irma, Keta, Otilija, Manti, Lorenzo, Minafra, Luigi, Petković, Vladana, Petrović, Ivan, Richiusa, Selene, Fira, Aleksandra Ristić, Russo, Giorgio, and Cirrone, Giuseppe Antonio Pablo

Subjects
PROTON therapy, MONTE Carlo method, UVEA, TREATMENT effectiveness, CELL survival, NUCLEAR physics
Abstract

CATANA (Centro di AdroTerapia ed Applicazioni Nucleari Avanzate) was the first Italian protontherapy facility dedicated to the treatment of ocular neoplastic pathologies. It is in operation at the LNS Laboratories of the Italian Institute for Nuclear Physics (INFN-LNS) and to date, 500 patients have been successfully treated. Even though proton therapy has demonstrated success in clinical settings, there is still a need for more accurate models because they are crucial for the estimation of clinically relevant RBE values. Since RBE can vary depending on several physical and biological parameters, there is a clear need for more experimental data to generate predictions. Establishing a database of cell survival experiments is therefore useful to accurately predict the effects of irradiations on both cancerous and normal tissue. The main aim of this work was to compare RBE values obtained from in-vitro experimental data with predictions made by the LEM II (Local Effect Model), Monte Carlo approaches, and semi-empirical models based on LET experimental measurements. For this purpose, the 92.1 uveal melanoma and ARPE-19 cells derived from normal retinal pigmented epithelium were selected and irradiated in the middle of clinical SOBP of the CATANA proton therapy facility. The remarkable results show the potentiality of using microdosimetric spectrum, Monte Carlo simulations and LEM model to predict not only the RBE but also the survival curves. [ABSTRACT FROM AUTHOR]

Published
2021
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22. FT-IR Transflection Micro-Spectroscopy Study on Normal Human Breast Cells after Exposure to a Proton Beam.

Author

Ricciardi, Valerio, Portaccio, Marianna, Perna, Giuseppe, Lasalvia, Maria, Capozzi, Vito, Cammarata, Francesco Paolo, Pisciotta, Pietro, Petringa, Giada, Delfino, Ines, Manti, Lorenzo, and Lepore, Maria

Subjects
PROTON beams, IONIZING radiation, CELL anatomy, BREAST, STANDING waves, PROTEIN structure
Abstract

Fourier transform infrared micro-spectroscopy (μ-FT-IR) is nowadays considered a valuable tool for investigating the changes occurring in human cells after exposure to ionizing radiation. Recently, considerable attention has been devoted to the use of this optical technique in the study of cells exposed to proton beams, that are being increasingly adopted in cancer therapy. Different experimental configurations are used for proton irradiation and subsequent spectra acquisition. To facilitate the use of μ-FT-IR, it may be useful to investigate new experimental approaches capable of speeding up and simplifying the irradiation and measurements phases. Here, we propose the use of low-e-substrates slides for cell culture, allowing the irradiation and spectra acquisition in transflection mode in a fast and direct way. In recent years, there has been a wide debate about the validity of these supports, but many researchers agree that the artifacts due to the presence of the electromagnetic standing wave effects are negligible in many practical cases. We investigated human normal breast cells (MCF-10 cell line) fixed immediately after the irradiation with graded proton radiation doses (0, 0.5, 2, and 4 Gy). The spectra obtained in transflection geometry showed characteristics very similar to those present in the spectra acquired in transmission geometry and confirm the validity of the chosen approach. The analysis of spectra indicates the occurrence of significant changes in DNA and lipids components of cells. Modifications in protein secondary structure are also evidenced. [ABSTRACT FROM AUTHOR]

Published
2021
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23. An FTIR Microspectroscopy Ratiometric Approach for Monitoring X-ray Irradiation Effects on SH-SY5Y Human Neuroblastoma Cells.

Author

Ricciardi, Valerio, Portaccio, Marianna, Manti, Lorenzo, and Lepore, Maria

Subjects
NEUROBLASTOMA, IRRADIATION, CELL anatomy, X-rays, PROTEIN structure, INFRARED spectra
Abstract

The ability of Fourier transform infrared (FTIR) spectroscopy in analyzing cells at a molecular level was exploited for investigating the biochemical changes induced in protein, nucleic acid, lipid, and carbohydrate content of cells after irradiation by graded X-ray doses. Infrared spectra from in vitro SH-SY5Y neuroblastoma cells following exposure to X-rays (0, 2, 4, 6, 8, 10 Gy) were analyzed using a ratiometric approach by evaluating the ratios between the absorbance of significant peaks. The spectroscopic investigation was performed on cells fixed immediately (t0 cells) and 24 h (t24 cells) after irradiation to study both the initial radiation-induced damage and the effect of the ensuing cellular repair processes. The analysis of infrared spectra allowed us to detect changes in proteins, lipids, and nucleic acids attributable to X-ray exposure. The ratiometric analysis was able to quantify changes for the protein, lipid, and DNA components and to suggest the occurrence of apoptosis processes. The ratiometric study of Amide I band indicated also that the secondary structure of proteins was significantly modified. The comparison between the results from t0 and t24 cells indicated the occurrence of cellular recovery processes. The adopted approach can provide a very direct way to monitor changes for specific cellular components and can represent a valuable tool for developing innovative strategies to monitor cancer radiotherapy outcome. [ABSTRACT FROM AUTHOR]

Published
2020
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24. Proton-irradiated breast cells: molecular points of view.

Author

Bravatà, Valentina, Cammarata, Francesco P, Minafra, Luigi, Pisciotta, Pietro, Scazzone, Concetta, Manti, Lorenzo, Savoca, Gaetano, Petringa, Giada, Cirrone, Giuseppe A P, Cuttone, Giacomo, Gilardi, Maria C, Forte, Giusi I, and Russo, Giorgio

Subjects
BREAST cancer treatment, CANCER radiotherapy, PROTON therapy
Abstract

Breast cancer (BC) is the most common cancer in women, highly heterogeneous at both the clinical and molecular level. Radiation therapy (RT) represents an efficient modality to treat localized tumor in BC care, although the choice of a unique treatment plan for all BC patients, including RT, may not be the best option. Technological advances in RT are evolving with the use of charged particle beams (i.e. protons) which, due to a more localized delivery of the radiation dose, reduce the dose administered to the heart compared with conventional RT. However, few data regarding proton-induced molecular changes are currently available. The aim of this study was to investigate and describe the production of immunological molecules and gene expression profiles induced by proton irradiation. We performed Luminex assay and cDNA microarray analyses to study the biological processes activated following irradiation with proton beams, both in the non-tumorigenic MCF10A cell line and in two tumorigenic BC cell lines, MCF7 and MDA-MB-231. The immunological signatures were dose dependent in MCF10A and MCF7 cell lines, whereas MDA-MB-231 cells show a strong pro-inflammatory profile regardless of the dose delivered. Clonogenic assay revealed different surviving fractions according to the breast cell lines analyzed. We found the involvement of genes related to cell response to proton irradiation and reported specific cell line- and dose-dependent gene signatures, able to drive cell fate after radiation exposure. Our data could represent a useful tool to better understand the molecular mechanisms elicited by proton irradiation and to predict treatment outcome [ABSTRACT FROM AUTHOR]

Published
2019
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25. Raman spectroscopy monitoring of MCF10A cells irradiated by protons at clinical doses.

Author

Lasalvia, Maria, Perna, Giuseppe, Manti, Lorenzo, Rasero, Javier, Stramaglia, Sebastiano, and Capozzi, Vito

Subjects
RAMAN spectroscopy
Abstract

Purpose: Proton therapy has been recently proposed as a radiotherapy form for breast cancer treatment in view of its potentially decreased normal-tissue toxicity compared with conventional photon-based radiotherapy. However, the risks for the healthy tissue cannot be completely eliminated. In the present study, the suitability of Raman spectroscopy to monitor the radiosensitivity of normal cells exposed to clinical proton beam was investigated. Materials and methods: MCF10A normal human breast cells were irradiated at two different proton doses: 0.5 Gy and 4 Gy. They were fixed immediately after irradiation and measured by means of Raman spectroscopy technique. The obtained data were analyzed both by evaluating the intensity ratio of specific Raman spectral peaks and through Multivariate Distance Matrix Regression technique. Results: Certain Raman peaks associated with DNA showed a systematic suppression at both dose levels. In particular, the intensity of a Raman peak at 784 cm−1, related to a stretching mode inside the phosphate group of DNA, is very sensitive to the proton beam exposure, even at the lowest investigated dose. Therefore, it could be considered as a spectral marker of cytogenetic damage. Conclusions: The obtained results are encouraging for the future of Raman spectroscopy in radiobiology research, particularly for improving risk assessment in the field of proton radiotherapy. Specifically, these findings validate Raman spectroscopy to measure biological response in human breast cells exposed to standard proton therapy doses used in clinical setting. [ABSTRACT FROM AUTHOR]

Published
2019
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28. Study of SH-SY5Y Cancer Cell Response to Treatment with Polyphenol Extracts Using FT-IR Spectroscopy.

Author

Ricciardi, Valerio, Portaccio, Marianna, Piccolella, Simona, Manti, Lorenzo, Pacifico, Severina, and Lepore, Maria

Subjects
POLYPHENOLS, CANCER cells, FOURIER transform infrared spectroscopy
Abstract

Plant polyphenols are important components of human diet and a number of them are considered to possess chemo-preventive and therapeutic properties against cancer. They are recognized as naturally occurring antioxidants, but also as pro-oxidant, pro-apoptotic, or chromosomal aberrations inducers, depending on their concentration and/or the stage of cell-cycle of the cells with which they interact. For these reasons, particular interest is devoted to knowing the total effects of polyphenols on the cell cycle and metabolism. Fourier-Transform Infrared (FT-IR) spectroscopy thanks to its ability in analyzing cells at a molecular level can be particularly useful in investigating the biochemical changes induced in protein, nucleic acid, lipid, and carbohydrate content of cells by means of polyphenols administration. Spectroscopic analysis was performed on in vitro human SH-SY5Y neuroblastoma cells that were exposed to different doses of a cherry derived polyphenol extract. The infrared spectra that were obtained from unexposed and exposed cells show significant differences that can be helpful in order to understand the cells-polyphenols interaction. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Correlation of Particle Traversals with Clonogenic Survival Using Cell-Fluorescent Ion Track Hybrid Detector.

Author

Dokic, Ivana, Niklas, Martin, Zimmermann, Ferdinand, Seidel, Philipp, Debus, Jürgen, Abdollahi, Amir, Jäkel, Oliver, Mairani, Andrea, Greilich, Steffen, Krunic, Damir, Hollander, M. Christine, and Manti, Lorenzo

Subjects
RADIOTHERAPY, FLUORESCENT probes, DNA damage
Abstract

Development of novel approaches linking the physical characteristics of particles with biological responses are of high relevance for the field of particle therapy. In radiobiology, the clonogenic survival of cells is considered the gold standard assay for the assessment of cellular sensitivity to ionizing radiation. Toward further development of next generation biodosimeters in particle therapy, cell-fluorescent ion track hybrid detector (Cell-FIT-HD) was recently engineered by our group and successfully employed to study physical particle track information in correlation with irradiation-induced DNA damage in cell nuclei. In this work, we investigated the feasibility of Cell-FIT-HD as a tool to study the effects of clinical beams on cellular clonogenic survival. Tumor cells were grown on the fluorescent nuclear track detector as cell culture, mimicking the standard procedures for clonogenic assay. Cell-FIT-HD was used to detect the spatial distribution of particle tracks within colony-initiating cells. The physical data were associated with radiation-induced foci as surrogates for DNA double-strand breaks, the hallmark of radiation-induced cell lethality. Long-term cell fate was monitored to determine the ability of cells to form colonies. We report the first successful detection of particle traversal within colony-initiating cells at subcellular resolution using Cell-FIT-HD. [ABSTRACT FROM AUTHOR]

Published
2015
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30. Visible micro-Raman spectroscopy of single human mammary epithelial cells exposed to x-ray radiation.

Author

Delfino, Ines, Perna, Giuseppe, Lasalvia, Maria, Capozzi, Vito, Manti, Lorenzo, Camerlingo, Carlo, and Lepore, Maria

Subjects
RAMAN spectroscopy, PHYSIOLOGICAL effects of radiation, RADIATION measurements, SPECTRUM analysis
Abstract

A micro-Raman spectroscopy investigation has been performed in vitro on single human mammary epithelial cells after irradiation by graded x-ray doses. The analysis by principal component analysis (PCA) and interval-PCA (i-PCA) methods has allowed us to point out the small differences in the Raman spectra induced by irradiation. This experimental approach has enabled us to delineate radiation-induced changes in protein, nucleic acid, lipid, and carbohydrate content. In particular, the dose dependence of PCA and i-PCA components has been analyzed. Our results have confirmed that micro-Raman spectroscopy coupled to properly chosen data analysis methods is a very sensitive technique to detect early molecular changes at the single-cell level following exposure to ionizing radiation. This would help in developing innovative approaches to monitor radiation cancer radiotherapy outcome so as to reduce the overall radiation dose and minimize damage to the surrounding healthy cells, both aspects being of great importance in the field of radiation therapy. [ABSTRACT FROM AUTHOR]

Published
2015
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31. Cooperative biological effects between ionizing radiation and other physical and chemical agents

Author

Manti, Lorenzo and D’Arco, Annalisa

Subjects
*DNA damage, *CHEMICAL warfare agents, *GENETIC toxicology, *PHYSIOLOGICAL effects of ionizing radiation, *IONIZING radiation dosage, *ELECTROMAGNETIC fields, *EPIDEMIOLOGY, *DNA repair
Abstract

Abstract: Exposure to ionizing radiation (IR), at environmentally and therapeutically relevant doses or as a result of diagnostics or accidents, causes cyto- and genotoxic damage. However, exposure to IR alone is a rare event as it occurs in spatial and temporal combination with several physico-chemical agents. Some of these are of known noxiousness, as is the case with chemical compounds at high dose, hence additive/synergistic effects can be expected or have been demonstrated. Conversely, the cellular toxicity of other agents, such as non-ionizing electromagnetic fields (EMFs), is only presumed and their short- and long-term cooperation on IR-induced damage remains undetermined. In this review, we shall examine evidence in support of the interplay between spatially and/or temporally related environmentally relevant stressors. In vitro or animal-based studies as well as epidemiological surveys have generally examined the combined action of no more than a couple of known or potentially DNA-damaging agents. Moreover, most existing research mainly focused on short-term effects of combined exposures. Hence, it is important that quantitative research addresses the issue of the possible cooperation between chronic exposure to environmental trace contaminants and exposure to EMFs, examining not only the modulation of damage acutely induced by IR but also long-term genome stability. [Copyright &y& Elsevier]

Published
2010
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32. Measurements of metaphase and interphase chromosome aberrations transmitted through early cell replication rounds in human lymphocytes exposed to low-LET protons and high-LET 12C ions

Author

Manti, Lorenzo, Durante, Marco, Grossi, Gianfranco, Ortenzia, Ornella, Pugliese, Mariagabriella, Scampoli, Paola, and Gialanella, Giancarlo

Subjects
*CHROMOSOME abnormalities, *DNA replication, *CELL division, *GENETIC mutation
Abstract

Abstract: Inheritable chromosome aberrations (CA) are of concern because cytogenetic damage may trigger the carcinogenic process. Moreover, stability of radiation-induced CA is a prerequisite for meaningful biological dosimetry. CA inheritability arguably depends on the aberration structure, with symmetrical exchanges being favoured over asymmetrical rearrangements, but it is also affected by radiation quality. CA induced by low-LET protons and high-LET 12C ions in G0 peripheral blood lymphocytes were measured in first- , second- and third-generation by combined FISH/harlequin staining of metaphase as well as prematurely condensed interphase chromosomes 1 and 2. As expected, the frequency of non-transmissible (NT) aberrations declined through replication rounds. A radiation-induced arrest occurred prior to first post-irradiation mitosis that prevalently affected aberrant cells. Aberrant cells incurred cycle delays also at subsequent cycles following proton-irradiation but not 12C ion-irradiation. As expected, the frequency of reciprocal translocations remained fairly stable while that of dicentrics was halved at each mitotic round. A significant fraction of complex-type exchanges was found in third-generation cells following both irradiations and appeared to be transmitted relatively more efficiently after protons than 12C ions. A low but stably transmitted frequency of transmissible (T)-type insertions were detected after 12C ions but not after low LET-irradiation. Our data support a differential ability by aberrant cells to progress through post-irradiation mitoses that is influenced by the aberration burden and radiation quality. [Copyright &y& Elsevier]

Published
2006
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33. Could Polyphenols Really Be a Good Radioprotective Strategy?

Author

Faramarzi, Shadab, Piccolella, Simona, Manti, Lorenzo, and Pacifico, Severina

Subjects
PLANT polyphenols, POLYPHENOLS, REACTIVE nitrogen species, SCIENTIFIC knowledge, IONIZING radiation, PLANT extracts
Abstract

Currently, radiotherapy is one of the most effective strategies to treat cancer. However, deleterious toxicity against normal cells indicate for the need to selectively protect them. Reactive oxygen and nitrogen species reinforce ionizing radiation cytotoxicity, and compounds able to scavenge these species or enhance antioxidant enzymes (e.g., superoxide dismutase, catalase, and glutathione peroxidase) should be properly investigated. Antioxidant plant-derived compounds, such as phenols and polyphenols, could represent a valuable alternative to synthetic compounds to be used as radio-protective agents. In fact, their dose-dependent antioxidant/pro-oxidant efficacy could provide a high degree of protection to normal tissues, with little or no protection to tumor cells. The present review provides an update of the current scientific knowledge of polyphenols in pure forms or in plant extracts with good evidence concerning their possible radiomodulating action. Indeed, with few exceptions, to date, the fragmentary data available mostly derive from in vitro studies, which do not find comfort in preclinical and/or clinical studies. On the contrary, when preclinical studies are reported, especially regarding the bioactivity of a plant extract, its chemical composition is not taken into account, avoiding any standardization and compromising data reproducibility. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Multivariate Analysis of Difference Raman Spectra of the Irradiated Nucleus and Cytoplasm Region of SH-SY5Y Human Neuroblastoma Cells.

Author

Delfino, Ines, Ricciardi, Valerio, Manti, Lorenzo, Lasalvia, Maria, and Lepore, Maria

Subjects
CYTOPLASM, RAMAN spectroscopy, MULTIVARIATE analysis, PRINCIPAL components analysis, NEUROBLASTOMA, CELLS
Abstract

Previous works showed that spatially resolved Raman spectra of cytoplasm and nucleus region of single cells exposed to X-rays evidence different features. The present work aims to introduce a new approach to profit from these differences to deeper investigate X-ray irradiation effects on single SH-SY5Y human neuroblastoma cells. For this aim, Raman micro-spectroscopy was performed in vitro on single cells after irradiation by graded X-ray doses (2, 4, 6, 8 Gy). Spectra from nucleus and cytoplasm regions were selectively acquired. The examination by interval Principal Component Analysis (i-PCA) of the difference spectra obtained by subtracting each cytoplasm-related spectrum from the corresponding one detected at the nucleus enabled us to reveal the subtle modifications of Raman features specific of different spatial cell regions. They were discussed in terms of effects induced by X-ray irradiation on DNA/RNA, lipids, and proteins. The proposed approach enabled us to evidence some features not outlined in previous investigations. [ABSTRACT FROM AUTHOR]

Published
2019
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36. Gene expression profiling of breast cancer cell lines treated with proton and electron radiations.

Author

Bravatà, Valentina, Minafra, Luigi, Cammarata, Francesco Paolo, Pisciotta, Pietro, Lamia, Debora, Marchese, Valentina, Petringa, Giada, Manti, Lorenzo, Cirrone, Giuseppe AP, Gilardi, Maria Carla, Cuttone, Giacomo, Forte, Giusi Irma, and Russo, Giorgio

Subjects
GENE expression profiling, RADIATION, BREAST cancer treatment, BREAST cancer patients, MEDICAL technology
Abstract

Technological advances in radiation therapy are evolving with the use of hadrons, such as protons, indicated for tumors where conventional radiotherapy does not give significant advantages or for tumors located in sensitive regions, which need the maximum of dose-saving of the surrounding healthy tissues. The genomic response to conventional and non-conventional linear energy transfer exposure is a poor investigated topic and became an issue of radiobiological interest. The aim of this work was to analyze and compare molecular responses in term of gene expression profiles, induced by electron and proton irradiation in breast cancer cell lines. We studied the gene expression profiling differences by cDNA microarray activated in response to electron and proton irradiation with different linear energy transfer values, among three breast cell lines (the tumorigenic MCF7 and MDA-MB-231 and the non-tumorigenic MCF10A), exposed to the same sublethal dose of 9 Gy. Gene expression profiling pathway analyses showed the activation of different signaling and molecular networks in a cell line and radiation type-dependent manner. MCF10A and MDA-MB-231 cell lines were found to induce factors and pathways involved in the immunological process control. Here, we describe in a detailed way the gene expression profiling and pathways activated after electron and proton irradiation in breast cancer cells. Summarizing, although specific pathways are activated in a radiation type-dependent manner, each cell line activates overall similar molecular networks in response to both these two types of ionizing radiation. In the era of personalized medicine and breast cancer target-directed intervention, we trust that this study could drive radiation therapy towards personalized treatments, evaluating possible combined treatments, based on the molecular characterization. [ABSTRACT FROM AUTHOR]

Published
2018
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37. Graphene-Based Raman Spectroscopy for pH Sensing of X-rays Exposed and Unexposed Culture Media and Cells.

Author

Camerlingo, Carlo, Verde, Alessandro, Manti, Lorenzo, Meschini, Roberta, Delfino, Ines, and Lepore, Maria

Subjects
GRAPHENE, RAMAN spectroscopy, BIOLOGICAL fluid dynamics, AQUEOUS solutions, CELL culture
Abstract

Graphene provides a unique way of sensing the local pH level of substances on the micrometric scale, with important implications for the monitoring of cellular metabolic activities where proton excretion could occur. Accordingly, an innovative biosensing approach for the quantification of the pH value of biological fluids, to be used also with small amounts of fluids, was realized and tested. It is based on the use of micro-Raman spectroscopy to detect the modifications of the graphene doping level induced by the contact of the graphene with the selected fluids. The approach was preliminarily tested on aqueous solutions of known pH values. It was then used to quantify the pH values of cell culture media directly exposed to different doses of X-ray radiation and to media exposed to X-ray-irradiated cells. The Raman response of cells placed on graphene layers was also examined. [ABSTRACT FROM AUTHOR]

Published
2018
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38. BRCA1 Deficiency Exacerbates Estrogen-Induced DNA Damage and Genomic Instability.

Author

Savage, Kienan I., Matchett, Kyle B., Barros, Eliana M., Cooper, Kevin M., Irwin, Gareth W., Gorski, Julia J., Orr, Katy S., Vohhodina, Jekaterina, Kavanagh, Joy N., Madden, Angelina F., Powell, Alexander, Manti, Lorenzo, McDade, Simon S., Ben Ho Park, Prise, Kevin M., McIntosh, Stuart A., Salto-Tellez, Manuel, Richard, Derek J., Elliott, Christopher T., and Harkin, D. Paul

Subjects
*BRCA genes, *TUMOR suppressor genes, *BRCA proteins, *ESTROGEN, *SEX hormones
Abstract

Germline mutations in BRCA1 predispose carriers to a high incidence of breast and ovarian cancers. BRCA1 functions to maintain genomic stability through critical roles in DNA repair, cell-cycle arrest, and transcriptional control. A major question has been why BRCA1 loss or mutation leads to tumors mainly in estrogen-regulated tissues, given that BRCA1 has essential functions in all cell types. Here, we report that estrogen and estrogen metabolites can cause DNA double-strand breaks (DSB) in estrogen receptor α-negative breast cells and that BRCA1 is required to repair these DSBs to prevent metabolite-induced genomic instability. We found that BRCA1 also regulates estrogen metabolism and metabolite-mediated DNA damage by repressing the transcription of estrogen-metabolizing enzymes, such as CYP1A1, in breast cells. Finally, we used a knock-in human cell model with a heterozygous BRCA1 pathogenic mutation to show how BRCA1 haploin sufficiency affects these processes. Our findings provide pivotal new insights into why BRCA1 mutation drives the formation of tumors in estrogen-regulated tissues, despite the general role of BRCA1 in DNA repair in all cell types. [ABSTRACT FROM AUTHOR]

Published
2014
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39. Identification of a BRCA1-mRNA Splicing Complex Required for Efficient DNA Repair and Maintenance of Genomic Stability.

Author

Savage, Kienan?I., Gorski, Julia?J., Barros, Eliana?M., Irwin, Gareth?W., Manti, Lorenzo, Powell, Alexander?J., Pellagatti, Andrea, Lukashchuk, Natalia, McCance, Dennis?J., McCluggage, W.?Glenn, Schettino, Giuseppe, Salto-Tellez, Manuel, Boultwood, Jacqueline, Richard, Derek?J., McDade, Simon?S., and Harkin, D.?Paul

Subjects
*MESSENGER RNA, *RNA splicing, *GENETIC mutation, *DNA repair, *OVARIAN cancer, *BREAST cancer risk factors, *GENOMES, *CANCER risk factors
Abstract

Summary: Mutations within BRCA1 predispose carriers to a high risk of breast and ovarian cancers. BRCA1 functions to maintain genomic stability through the assembly of multiple protein complexes involved in DNA repair, cell-cycle arrest, and transcriptional regulation. Here, we report the identification of a DNA damage-induced BRCA1 protein complex containing BCLAF1 and other key components of the mRNA-splicing machinery. In response to DNA damage, this complex regulates pre-mRNA splicing of a number of genes involved in DNA damage signaling and repair, thereby promoting the stability of these transcripts/proteins. Further, we show that abrogation of this complex results in sensitivity to DNA damage, defective DNA repair, and genomic instability. Interestingly, mutations in a number of proteins found within this complex have been identified in numerous cancer types. These data suggest that regulation of splicing by the BRCA1-mRNA splicing complex plays an important role in the cellular response to DNA damage. [ABSTRACT FROM AUTHOR]

Published
2014
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40. ELIMED, future hadrontherapy applications of laser-accelerated beams.

Author

Cirrone, Giuseppe A.P., Carpinelli, Massimo, Cuttone, Giacomo, Gammino, Santo, Bijan Jia, S., Korn, Georg, Maggiore, Mario, Manti, Lorenzo, Margarone, Daniele, Prokupek, Jan, Renis, Marcella, Romano, Francesco, Schillaci, Francesco, Tomasello, Barbara, Torrisi, Lorenzo, Tramontana, Antonella, and Velyhan, Andriy

Subjects
*LASER beams, *HADRONS, *NUCLEAR physics, *MEDICAL physics, *ION beams
Abstract

Abstract: Laser-ion acceleration has recently gained a great interest as an alternative to conventional and more expensive acceleration techniques. These ion beams have desirable qualities such as small source size, high luminosity and small emittance to be used in different fields as Nuclear Physics, Medical Physics, etc. This is very promising specially for the future perspective of a new concept of hadrontherapy based on laser-based devices could be developed, replacing traditional accelerating machines. Before delivering laser-driven beams for treatments they have to be handled, cleaned from unwanted particles and characterized in order to have the clinical requirements. In fact ion energy spectra have exponential trend, almost 100% energy spread and a wide angular divergence which is the biggest issue in the beam transport and, hence, in a wider use of this technology. In order to demonstrate the clinical applicability of laser-driven beams new collaboration between ELI-Beamlines project researchers from Prague (Cz) and a INFN-LNS group from Catania (I) has been already launched and scientists from different countries have already express their will in joining the project. This cooperation has been named ELIMED (MEDical application at ELIBeamlines) and will take place inside the ELI-Beamlines infrastructure located in Prague. This work describes the schedule of the ELIMED project and the design of the energy selector which will be realized at INFN-LNS. The device is an important part of the whole transport beam line which will be realised in order to make the ion beams suitable for medical applications. [Copyright &y& Elsevier]

Published
2013
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42. The Proton-Boron Reaction Increases the Radiobiological Effectiveness of Clinical Low- and High-Energy Proton Beams: Novel Experimental Evidence and Perspectives.

Author

Bláha P, Feoli C, Agosteo S, Calvaruso M, Cammarata FP, Catalano R, Ciocca M, Cirrone GAP, Conte V, Cuttone G, Facoetti A, Forte GI, Giuffrida L, Magro G, Margarone D, Minafra L, Petringa G, Pucci G, Ricciardi V, Rosa E, Russo G, and Manti L

Abstract

Protontherapy is a rapidly expanding radiotherapy modality where accelerated proton beams are used to precisely deliver the dose to the tumor target but is generally considered ineffective against radioresistant tumors. Proton-Boron Capture Therapy (PBCT) is a novel approach aimed at enhancing proton biological effectiveness. PBCT exploits a nuclear fusion reaction between low-energy protons and 11 B atoms, i.e. p+ 11 B→ 3α (p-B), which is supposed to produce highly-DNA damaging α-particles exclusively across the tumor-conformed Spread-Out Bragg Peak (SOBP), without harming healthy tissues in the beam entrance channel. To confirm previous work on PBCT, here we report new in-vitro data obtained at the 62-MeV ocular melanoma-dedicated proton beamline of the INFN-Laboratori Nazionali del Sud (LNS), Catania, Italy. For the first time, we also tested PBCT at the 250-MeV proton beamline used for deep-seated cancers at the Centro Nazionale di Adroterapia Oncologica (CNAO), Pavia, Italy. We used Sodium Mercaptododecaborate (BSH) as 11 B carrier, DU145 prostate cancer cells to assess cell killing and non-cancer epithelial breast MCF-10A cells for quantifying chromosome aberrations (CAs) by FISH painting and DNA repair pathway protein expression by western blotting. Cells were exposed at various depths along the two clinical SOBPs. Compared to exposure in the absence of boron, proton irradiation in the presence of BSH significantly reduced DU145 clonogenic survival and increased both frequency and complexity of CAs in MCF-10A cells at the mid- and distal SOBP positions, but not at the beam entrance. BSH-mediated enhancement of DNA damage response was also found at mid-SOBP. These results corroborate PBCT as a strategy to render protontherapy amenable towards radiotherapy-resilient tumor. If coupled with emerging proton FLASH radiotherapy modalities, PBCT could thus widen the protontherapy therapeutic index., Competing Interests: Author LG, DM and GAPC declare a potential conflict of interest being patent holder of the following invention: “DEVICE AND METHOD FOR IMAGING AND ENHANCED PROTONTHERAPY TREATMENT USING NUCLEAR REACTIONS. Application no.: EP16178280.0 – 1109/3266470. The remaining authors declare that the work described in this paper was conducted in the absence of any specific relationship that could be construed as a potential conflict of interest., (Copyright © 2021 Bláha, Feoli, Agosteo, Calvaruso, Cammarata, Catalano, Ciocca, Cirrone, Conte, Cuttone, Facoetti, Forte, Giuffrida, Magro, Margarone, Minafra, Petringa, Pucci, Ricciardi, Rosa, Russo and Manti.)

Published
2021
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43. Adaptive response in human blood lymphocytes exposed to non-ionizing radiofrequency fields: resistance to ionizing radiation-induced damage.

Author

Sannino A, Zeni O, Romeo S, Massa R, Gialanella G, Grossi G, Manti L, Vijayalaxmi, and Scarfì MR

Subjects
Cells, Cultured, Dose-Response Relationship, Drug, Humans, Lymphocytes cytology, Radio Waves, Adaptation, Physiological genetics, Adaptation, Physiological radiation effects, Lymphocytes physiology, Lymphocytes radiation effects, Micronuclei, Chromosome-Defective radiation effects, Radiation Tolerance genetics, Radiation Tolerance radiation effects
Abstract

The aim of this preliminary investigation was to assess whether human peripheral blood lymphocytes which have been pre-exposed to non-ionizing radiofrequency fields exhibit an adaptive response (AR) by resisting the induction of genetic damage from subsequent exposure to ionizing radiation. Peripheral blood lymphocytes from four healthy donors were stimulated with phytohemagglutinin for 24 h and then exposed for 20 h to 1950 MHz radiofrequency fields (RF, adaptive dose, AD) at an average specific absorption rate of 0.3 W/kg. At 48 h, the cells were subjected to a challenge dose (CD) of 1.0 or 1.5 Gy X-irradiation (XR, challenge dose, CD). After a 72 h total culture period, cells were collected to examine the incidence of micronuclei (MN). There was a significant decrease in the number of MN in lymphocytes exposed to RF + XR (AD + CD) as compared with those subjected to XR alone (CD). These observations thus suggested a RF-induced AR and induction of resistance to subsequent damage from XR. There was variability between the donors in RF-induced AR. The data reported in our earlier investigations also indicated a similar induction of AR in human blood lymphocytes that had been pre-exposed to RF (AD) and subsequently treated with a chemical mutagen, mitomycin C (CD). Since XR and mitomycin-C induce different kinds of lesions in cellular DNA, further studies are required to understand the mechanism(s) involved in the RF-induced adaptive response.

Published
2014
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44. Effectiveness of monoenergetic and spread-out bragg peak carbon-ions for inactivation of various normal and tumour human cell lines.

Author

Belli M, Bettega D, Calzolari P, Cherubini R, Cuttone G, Durante M, Esposito G, Furusawa Y, Gerardi S, Gialanella G, Grossi G, Manti L, Marchesini R, Pugliese M, Scampoli P, Simone G, Sorrentino E, Tabocchini MA, and Tallone L

Subjects
Dose-Response Relationship, Radiation, Humans, Radiation Dosage, Scattering, Radiation, Apoptosis radiation effects, Carbon Isotopes, Cell Survival radiation effects, Heavy Ions, Neoplasms pathology, Neoplasms physiopathology
Abstract

This work aimed at measuring cell-killing effectiveness of monoenergetic and Spread-Out Bragg Peak (SOBP) carbon-ion beams in normal and tumour cells with different radiation sensitivity. Clonogenic survival was assayed in normal and tumour human cell lines exhibiting different radiosensitivity to X- or gamma-rays following exposure to monoenergetic carbon-ion beams (incident LET 13-303 keV/microm) and at various positions along the ionization curve of a therapeutic carbon-ion beam, corresponding to three dose-averaged LET (LET(d)) values (40, 50 and 75 keV/microm). Chinese hamster V79 cells were also used. Carbon-ion effectiveness for cell inactivation generally increased with LET for monoenergetic beams, with the largest gain in cell-killing obtained in the cells most radioresistant to X- or gamma-rays. Such an increased effectiveness in cells less responsive to low LET radiation was found also for SOBP irradiation, but the latter was less effective compared with monoenergetic ion beams of the same LET. Our data show the superior effectiveness for cell-killing exhibited by carbon-ion beams compared to lower LET radiation, particularly in tumour cells radioresistant to X- or gamma-rays, hence the advantage of using such beams in radiotherapy. The observed lower effectiveness of SOBP irradiation compared to monoenergetic carbon beam irradiation argues against the radiobiological equivalence between dose-averaged LET in a point in the SOBP and the corresponding monoenergetic beams.

Published
2008
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45. Measurements of metaphase and interphase chromosome aberrations transmitted through early cell replication rounds in human lymphocytes exposed to low-LET protons and high-LET 12C ions.

Author

Manti L, Durante M, Grossi G, Ortenzia O, Pugliese M, Scampoli P, and Gialanella G

Subjects
Carbon, Cell Division, Humans, In Situ Hybridization, Fluorescence, In Vitro Techniques, Mutation, Chromosome Aberrations, Interphase genetics, Linear Energy Transfer, Lymphocytes cytology, Lymphocytes radiation effects, Metaphase genetics
Abstract

Inheritable chromosome aberrations (CA) are of concern because cytogenetic damage may trigger the carcinogenic process. Moreover, stability of radiation-induced CA is a prerequisite for meaningful biological dosimetry. CA inheritability arguably depends on the aberration structure, with symmetrical exchanges being favoured over asymmetrical rearrangements, but it is also affected by radiation quality. CA induced by low-LET protons and high-LET 12C ions in G0 peripheral blood lymphocytes were measured in first- , second- and third-generation by combined FISH/harlequin staining of metaphase as well as prematurely condensed interphase chromosomes 1 and 2. As expected, the frequency of non-transmissible (NT) aberrations declined through replication rounds. A radiation-induced arrest occurred prior to first post-irradiation mitosis that prevalently affected aberrant cells. Aberrant cells incurred cycle delays also at subsequent cycles following proton-irradiation but not 12C ion-irradiation. As expected, the frequency of reciprocal translocations remained fairly stable while that of dicentrics was halved at each mitotic round. A significant fraction of complex-type exchanges was found in third-generation cells following both irradiations and appeared to be transmitted relatively more efficiently after protons than 12C ions. A low but stably transmitted frequency of transmissible (T)-type insertions were detected after 12C ions but not after low LET-irradiation. Our data support a differential ability by aberrant cells to progress through post-irradiation mitoses that is influenced by the aberration burden and radiation quality.

Published
2006
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