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2. Contributors

Author

Abiri, Behnaz, primary, Afrin, Sadia, additional, Aguilera, Yolanda, additional, Al Zoubi, Mazhar, additional, Aljabali, Alaa, additional, Al-Taie, Anmar, additional, Amano, Tsukuru, additional, Amiano, Pilar, additional, Ant, Ayca, additional, Ashrafi, Mahboobeh, additional, Assmann, Charles Elias, additional, Atalay, Arzu, additional, Avallone, Luigi, additional, Aziz, Khaled, additional, Bagatini, Margarete Dulce, additional, Barrera, Giuseppina, additional, Batırel, Saime, additional, Battino, Maurizio, additional, Bender, Onur, additional, Bezerra, Daniel Pereira, additional, Bhandari, Ranjana, additional, Bisoffi, Marco, additional, Bojková, Bianka, additional, Boonla, Chanchai, additional, Buettner, Garry R., additional, Bynum, David, additional, Calabrò, Viola, additional, Calaf, Gloria M., additional, Carotenuto, Domenico, additional, Carroll, Rory S., additional, Chano, Tokuhiro, additional, Cheesman, Matthew, additional, Chen, Rong-Jane, additional, Ciani, Francesca, additional, Cocchia, Natascia, additional, Cock, Ian Edwin, additional, Costa, João G., additional, Cucci, Marie Angele, additional, Cullen, Joseph J., additional, da Rosa, Jéssica Righi, additional, da Silva Rosa Bonadiman, Beatriz, additional, Das, Sreemanti, additional, Deben, Christophe, additional, Devecchi, Andrea, additional, D'Onofrio, Valentina, additional, Elyasi, Sepideh, additional, Eraldemir, Fatma Ceyla, additional, Esposito, Luigi, additional, Fadda, Maurizio, additional, Favero-Santos, Bianca Cristine, additional, Fernandes, Ana S., additional, Ferreira-Pêgo, Cíntia, additional, Finocchiaro, Concetta, additional, Foppoli, Cesira, additional, Forbes-Hernández, Tamara Y., additional, Freire Boullosa, Laurie, additional, Gambardella, Jessica, additional, García-Villanova, Belén, additional, Georgakilas, Alexandros G., additional, Giampieri, Francesca, additional, Gilaberte, Yolanda, additional, Gomes-Marcondes, Maria Cristina Cintra, additional, Gonzalez, Salvador, additional, Gonzalez de Mejia, Elvira, additional, Goya, Luis, additional, Grattarola, Margherita, additional, Guerra-Hernández, Eduardo Jesús, additional, Halasa, Marta, additional, Hassan, Zuhair Mohammad, additional, Hatzi, Vasiliki I., additional, Herbert, Cristan A., additional, Iaccarino, Guido, additional, Ippolito, Mirko, additional, Izzettin, Fikret Vehbi, additional, Juarranz, Angeles, additional, Kang, Daehee, additional, Kang, Rui, additional, Khanna, Garima, additional, Khuda-Bukhsh, Anisur Rahman, additional, Korak, Tuğcan, additional, Kuhad, Anurag, additional, Kurhaluk, Natalia, additional, Kwon, Byoung-Mog, additional, Lee, Sang-Ah, additional, Van Loenhout, Jinthe, additional, Loke, Wei Sheng Joshua, additional, Longhi, Pâmela, additional, Martin, Olga A., additional, Martín, Maria Angeles, additional, Martín-Cabrejas, Maria A., additional, Maruccio, Lucianna, additional, Mfotie Njoya, Emmanuel, additional, Miyaguti, Natalia Angelo da Silva, additional, Molanouri Shamsi, Mahdieh, additional, Molina-Montes, Esther, additional, Mousapasandi, Amir, additional, Nowsheen, Somaira, additional, O’Neill, Justin M., additional, O’Sullivan, Jane, additional, Okla, Karolina, additional, Oliveira, Melina de Moraes Santos, additional, Oliveira, Nuno G., additional, de Oliveira, Sarah Christine Pereira, additional, de Oliveira Alves, Audrei, additional, Parrado, Concepción, additional, Patel, Vinood B., additional, Perluigi, Marzia, additional, Pervin, Rumana, additional, Philips, Neena, additional, Pira, Costanza, additional, Pizzimenti, Stefania, additional, Pk, Md. Moyen Uddin, additional, Pollice, Alessandra, additional, Prasad, Sahdeo, additional, Preedy, Victor R., additional, Rahman, Matiar, additional, Rajendram, Rajkumar, additional, Ramos, Sonia, additional, Rebollo-Hernanz, Miguel, additional, Richardson, Richard, additional, Saha, Santu Kumar, additional, Saha, Sweta Sharma, additional, Salgado, Carla de Moraes, additional, Sancar, Mesut, additional, Shin, Woo-Kyoung, additional, Shiota, Masaki, additional, Shomali, Tahoora, additional, Siomyk, Halyna, additional, Siva, Shankar, additional, Sorriento, Daniela, additional, Srivastava, Sanjay K., additional, Suzuki, Hidekazu, additional, Tafuri, Simona, additional, Tang, Daolin, additional, Thomas, Paul S., additional, Tremi, Ioanna, additional, Tsugawa, Hitoshi, additional, Tyszka-Czochara, Malgorzata, additional, Vafa, Mohammadreza, additional, Ventura, Jessica, additional, Viana, Laís Rosa, additional, Vidović, Bojana B., additional, Wang, Ying-Jan, additional, Wawruszak, Anna, additional, Weis, Grazielle Castagna Cezimbra, additional, Winklewski, Pawel J., additional, and Yoon, Yae Jin, additional

Published
2021
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3. Enteral l-Arginine and Necrotizing Enterocolitis

Author

Zachaki, Sophia, Gavrili, Stavroula, Polycarpou, Elena, Hatzi, Vasiliki I., Bendich, Adrianne, Series editor, BALES, CONNIE, Series editor, Patel, Vinood B., editor, Preedy, Victor R., editor, and Rajendram, Rajkumar, editor

Published
2017
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4. Protocol for designing INVITES-IN, a tool for assessing the internal validity of in vitro studies

Author

Svendsen, Camilla, primary, Whaley, Paul, additional, Vist, Gunn E., additional, Husøy, Trine, additional, Beronius, Anna, additional, Di Consiglio, Emma, additional, Druwe, Ingrid, additional, Hartung, Thomas, additional, Hatzi, Vasiliki I., additional, Hoffmann, Sebastian, additional, Hooijmans, Carlijn R., additional, Machera, Kyriaki, additional, Robinson, Joshua F., additional, Roggen, Erwin, additional, Rooney, Andrew A., additional, Roth, Nicolas, additional, Spilioti, Eliana, additional, Spyropoulou, Anastasia, additional, Tcheremenskaia, Olga, additional, Testai, Emanuela, additional, Vinken, Mathieu, additional, and Mathisen, Gro H., additional

Published
2023
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6. Protocol for designing INVITES-IN, a tool for assessing the internal validity of in vitro studies

Author

Svendsen, Camilla, Whaley, Paul, Vist, Gunn E., Husøy, Trine, Beronius, Anna, Di Consiglio, Emma, Druwe, Ingrid, Hartung, Thomas, Hatzi, Vasiliki I., Hoffmann, Sebastian, Hooijmans, Carlijn R., Machera, Kyriaki, Robinson, Joshua F., Roggen, Erwin, Rooney, Andrew A., Roth, Nicolas, Spilioti, Eliana, Spyropoulou, Anastasia, Tcheremenskaia, Olga, Testai, Emanuela, Vinken, Mathieu, Mathisen, Gro H., Svendsen, Camilla, Whaley, Paul, Vist, Gunn E., Husøy, Trine, Beronius, Anna, Di Consiglio, Emma, Druwe, Ingrid, Hartung, Thomas, Hatzi, Vasiliki I., Hoffmann, Sebastian, Hooijmans, Carlijn R., Machera, Kyriaki, Robinson, Joshua F., Roggen, Erwin, Rooney, Andrew A., Roth, Nicolas, Spilioti, Eliana, Spyropoulou, Anastasia, Tcheremenskaia, Olga, Testai, Emanuela, Vinken, Mathieu, and Mathisen, Gro H.

Abstract

This protocol describes the design and development of a tool for evaluation of the internal validity of in vitro studies, which is needed to include the data as evidence in systematic reviews and chemical risk assessments. The tool will be designed specifically to be applied to cell culture studies, including, but not restricted to, studies meeting the new approach methodology (NAM) definition. The tool is called INVITES-IN (IN VITro Experimental Studies INternal validity). In this protocol, three of the four studies that will be performed to create the release version of INVITES-IN are described. In the first study, evaluation of existing assessment tools will be combined with focus group discussions to identify how characteristics of the design or conduct of an in vitro study can affect its internal validity. Bias domains and items considered to be of relevance for in vitro studies will be identified. In the second study, group agreement on internal validity domains and items of importance for in vitro studies will be identified via a modified Delphi methodology. In the third study, the draft version of the tool will be created, based on the data on relevance and importance of bias domains and items collected in Studies 1 and 2. A separate protocol will be prepared for the fourth study, which includes the user testing and validation of the tool, and collection of users’ experience.

Published
2023

12. Inflammation and Oxidative DNA Damage

Author

Martin, Olga A., primary, Nowsheen, Somaira, additional, Siva, Shankar, additional, Aziz, Khaled, additional, Hatzi, Vasiliki I., additional, and Georgakilas, Alexandros G., additional

Published
2014
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13. List of Contributors

Author

Aidukaitis, CNA, Lucas, primary, Allensworth, Jennifer L., additional, Andallu, B., additional, Aqil, Farrukh, additional, Arora, Vipin, additional, Aziz, MD, Khaled, additional, Baba, Yasutaka, additional, Bae, Yun-Jung, additional, Baveja, Ankita, additional, Bisoffi, Marco, additional, Burky, Robert, additional, Bynum, David, additional, Calaf, Gloria M., additional, Canuto, MD, Rosa A., additional, Catalano, MD, Maria G., additional, Chakraborty, Kanishka, additional, Chen, Yin-Chiu, additional, Chen, Rong-Jane, additional, Chi, Chin-Wen, additional, Chopra, Kanwaljit, additional, Coccia, Raffaella, additional, Cohen, Joshua, additional, Cruz, Ana, additional, Das, Sreemanti, additional, Datta, Palika, additional, Del Bo’, Cristian, additional, Devi, Gayathri R., additional, Evans, MD, Myron K., additional, Fadda, Maurizio, additional, Fajardo, Alexandra M., additional, Farias-Eisner, Robin, additional, Finocchiaro, Concetta, additional, Foppoli, Cesira, additional, Georgakilas, Alexandros G., additional, Gilaberte, Yolanda, additional, Gonzalez, Salvador, additional, Goya, Luis, additional, Gupta, Ramesh C., additional, Hamilton, Chris, additional, Hatzi, Vasiliki I., additional, Hayashi, Sadao, additional, Hummel, Charles, additional, Jeyabalan, Jeyaprakash, additional, Joshi, Thwisha, additional, Joshua Loke, Wei Sheng, additional, Juarranz, Angeles, additional, Kang, Daehee, additional, Khuda-Bukhsh, Anisur Rahman, additional, Krishnan, Koyamangalath, additional, Kuhad, Anurag, additional, Lee, Sang-Ah, additional, Lewis, Craig R., additional, Lim, Mann Ying, additional, Liu, Pingguo, additional, Maggiora, Marina, additional, Martin, Olga A., additional, Martín, María Angeles, additional, Mehrotra, Sudhir, additional, Munagala, Radha, additional, Muzio, Giuliana, additional, Naito, Seiji, additional, Nakajo, Masayuki, additional, Nishizawa, Toshihiro, additional, Nowsheen, Somaira, additional, O’Neill, Kim, additional, Olas, Beata, additional, Parrado, Concepción, additional, Perluigi, Marzia, additional, Philips, Neena, additional, Pramanik, Kartick C., additional, Rajeshwari, C.U., additional, Ramos, Sonia, additional, Ramsauer, Victoria Palau, additional, Riso, Patrizia, additional, Robison, Richard, additional, Sachdeva, Anand Kamal, additional, Saha, Santu Kumar, additional, Sauer, Scott J., additional, Schena, Marina, additional, Shiota, Masaki, additional, Shobha, R.I., additional, Singh, Inder P., additional, Singh, Prathistha, additional, Siomyk, Halyna, additional, Siva, Shankar, additional, Sonoda, Shunro, additional, Srivastava, Sanjay K., additional, Stone, William, additional, Sung, Mi-Kyung, additional, Sung, Ming-Ta, additional, Suzuki, Hidekazu, additional, Thomas, Paul S., additional, Tosuji, Nanako, additional, Vendrame, Stefano, additional, Wang, Ying-Jan, additional, White, Matthew, additional, and Yokomizo, Akira, additional

Published
2014
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14. The Use of Genotoxicity Endpoints as Biomarkers of Low Dose Radiation Exposure in Interventional Cardiology

Author

Habibi, Martha, primary, Karyofyllis, Panagiotis K., additional, Nikolakopoulou, Aggeliki, additional, Papagiannis, Panagiotis, additional, Karaiskos, Pantelis, additional, Georgakilas, Alexandros G., additional, Hatzi, Vasiliki I., additional, Malakos, Ioannis, additional, Kollaros, Nikolaos, additional, Mastorakou, Irene, additional, Voudris, Vassilis, additional, and Terzoudi, Georgia I., additional

Published
2021
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19. Dose assessment intercomparisons within the RENEB network using G(0)-lymphocyte prematurely condensed chromosomes (PCC assay)

Author

Terzoudi, Georgia I, Pantelias, Gabriel, Darroudi, Firouz, Barszczewska, Katarzyna, Buraczewska, Iwona, Depuydt, Julie, Georgieva, Dimka, Hadjidekova, Valeria, Hatzi, Vasiliki I, Karachristou, Ioanna, Karakosta, Maria, Meschini, Roberta, M’Kacher, Radhia, Montoro, Alegria, Palitti, Fabrizio, Pantelias, Antonio, Pepe, Gaetano, Ricoul, Michelle, Sabatier, Laure, Sebastià, Natividad, Sommer, Sylwester, Vral, Anne, Zafiropoulos, Demetre, and Wojcik, Andrzej

Subjects
cell fusion, EXCHANGES, centromere/telomere PNA FISH, Biology and Life Sciences, Biodosimetry, IRRADIATED HUMAN-LYMPHOCYTES, PCC assay, PROBES, PERIPHERAL-BLOOD LYMPHOCYTES, FISH, TRIAGE BIODOSIMETRY, premature chromosome condensation, RADIATION, COMBINATION, BIOLOGICAL DOSIMETRY, FRAGMENTS
Abstract

Purpose: Dose assessment intercomparisons within the RENEB network were performed for triage biodosimetry analyzing G(0)-lymphocyte PCC for harmonization, standardization and optimization of the PCC assay. Materials and methods: Comparative analysis among different partners for dose assessment included shipment of PCC-slides and captured images to construct dose-response curves for up to 6 Gy gamma-rays. Accident simulation exercises were performed to assess the suitability of the PCC assay by detecting speed of analysis and minimum number of cells required for categorization of potentially exposed individuals. Results: Calibration data based on Giemsa-stained fragments in excess of 46 PCC were obtained by different partners using galleries of PCC images for each dose-point. Mean values derived from all scores yielded a linear dose-response with approximately 4 excess-fragments/cell/Gy. To unify scoring criteria, exercises were carried out using coded PCC-slides and/or coded irradiated blood samples. Analysis of samples received 24h post-exposure was successfully performed using Giemsa staining (1 excess-fragment/cell/Gy) or centromere/telomere FISH-staining for dicentrics. Conclusions: Dose assessments by RENEB partners using appropriate calibration curves were mostly in good agreement. The PCC assay is quick and reliable for whole- or partial-body triage biodosimetry by scoring excess-fragments or dicentrics in G(0)-lymphocytes. Particularly, analysis of Giemsa-stained excess PCC-fragments is simple, inexpensive and its automation could increase throughput and scoring objectivity of the PCC assay.

Published
2017

20. RENEB accident simulation exercise

Author

Brzozowska, Beata, Ainsbury, Elizabeth, Baert, Annelot, Beaton-Green, Lindsay, Barrios, Leonardo, Francesc Barquinero, Joan, Bassinet, Celine, Beinke, Christina, Benedek, Anett, Beukes, Philip, Bortolin, Emanuela, Buraczewska, Iwona, Burbidge, Christopher, De Amicis, Andrea, De Angelis, Cinzia, Della Monaca, Sara, Depuydt, Julie, De Sanctis, Stefania, Dobos, Katalin, Domene, Mercedes Moreno, Dominguez, Inmaculada, Facco, Eva, Fattibene, Paola, Frenzel, Monika, Gil, Octavia Monteiro, Gonon, Geraldine, Gregoire, Eric, Gruel, Gaetan, Hadjidekova, Valeria, Hatzi, Vasiliki I., Hristova, Rositsa, Jaworska, Alicja, Kis, Eniko, Kowalska, Maria, Kulka, Ulrike, Lista, Florigio, Lumniczky, Katalin, Martinez-Lopez, Wilner, Meschini, Roberta, Moertl, Simone, Moquet, Jayne, Noditi, Mihaela, Oestreicher, Ursula, Orta Vazquez, Manuel Luis, Palma, Valentina, Pantelias, Gabriel, Montoro Pastor, Alegria, Patrono, Clarice, Piqueret-Stephan, Laure, Quattrini, Maria Cristina, Regalbuto, Elisa, Ricoul, Michelle, Roch-Lefevre, Sandrine, Roy, Laurence, Sabatier, Laure, Sarchiapone, Lucia, Sebastia, Natividad, Sommer, Sylwester, Sun, Mingzhu, Suto, Yumiko, Terzoudi, Georgia, Trompier, Francois, Vral, Anne, Wilkins, Ruth, Zafiropoulos, Demetre, Wieser, Albrecht, Woda, Clemens, Wojcik, Andrzej, Brzozowska, Beata, Ainsbury, Elizabeth, Baert, Annelot, Beaton-Green, Lindsay, Barrios, Leonardo, Francesc Barquinero, Joan, Bassinet, Celine, Beinke, Christina, Benedek, Anett, Beukes, Philip, Bortolin, Emanuela, Buraczewska, Iwona, Burbidge, Christopher, De Amicis, Andrea, De Angelis, Cinzia, Della Monaca, Sara, Depuydt, Julie, De Sanctis, Stefania, Dobos, Katalin, Domene, Mercedes Moreno, Dominguez, Inmaculada, Facco, Eva, Fattibene, Paola, Frenzel, Monika, Gil, Octavia Monteiro, Gonon, Geraldine, Gregoire, Eric, Gruel, Gaetan, Hadjidekova, Valeria, Hatzi, Vasiliki I., Hristova, Rositsa, Jaworska, Alicja, Kis, Eniko, Kowalska, Maria, Kulka, Ulrike, Lista, Florigio, Lumniczky, Katalin, Martinez-Lopez, Wilner, Meschini, Roberta, Moertl, Simone, Moquet, Jayne, Noditi, Mihaela, Oestreicher, Ursula, Orta Vazquez, Manuel Luis, Palma, Valentina, Pantelias, Gabriel, Montoro Pastor, Alegria, Patrono, Clarice, Piqueret-Stephan, Laure, Quattrini, Maria Cristina, Regalbuto, Elisa, Ricoul, Michelle, Roch-Lefevre, Sandrine, Roy, Laurence, Sabatier, Laure, Sarchiapone, Lucia, Sebastia, Natividad, Sommer, Sylwester, Sun, Mingzhu, Suto, Yumiko, Terzoudi, Georgia, Trompier, Francois, Vral, Anne, Wilkins, Ruth, Zafiropoulos, Demetre, Wieser, Albrecht, Woda, Clemens, and Wojcik, Andrzej

Abstract

Purpose: The RENEB accident exercise was carried out in order to train the RENEB participants in coordinating and managing potentially large data sets that would be generated in case of a major radiological event. Materials and methods: Each participant was offered the possibility to activate the network by sending an alerting email about a simulated radiation emergency. The same participant had to collect, compile and report capacity, triage categorization and exposure scenario results obtained from all other participants. The exercise was performed over 27 weeks and involved the network consisting of 28 institutes: 21 RENEB members, four candidates and three non-RENEB partners. Results: The duration of a single exercise never exceeded 10 days, while the response from the assisting laboratories never came later than within half a day. During each week of the exercise, around 4500 samples were reported by all service laboratories (SL) to be examined and 54 scenarios were coherently estimated by all laboratories (the standard deviation from the mean of all SL answers for a given scenario category and a set of data was not larger than 3 patient codes). Conclusions: Each participant received training in both the role of a reference laboratory (activating the network) and of a service laboratory (responding to an activation request). The procedures in the case of radiological event were successfully established and tested.

Published
2017
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21. Dose assessment intercomparisons within the RENEB network using G(0)-lymphocyte prematurely condensed chromosomes (PCC assay)

Author

Terzoudi, Georgia I., Pantelias, Gabriel, Darroudi, Firouz, Barszczewska, Katarzyna, Buraczewska, Iwona, Depuydt, Julie, Georgieva, Dimka, Hadjidekova, Valeria, Hatzi, Vasiliki I., Karachristou, Ioanna, Karakosta, Maria, Meschini, Roberta, M'Kacher, Radhia, Montoro, Alegria, Palitti, Fabrizio, Pantelias, Antonio, Pepe, Gaetano, Ricoul, Michelle, Sabatier, Laure, Sebastia, Natividad, Sommer, Sylwester, Vral, Anne, Zafiropoulos, Demetre, Wojcik, Andrzej, Terzoudi, Georgia I., Pantelias, Gabriel, Darroudi, Firouz, Barszczewska, Katarzyna, Buraczewska, Iwona, Depuydt, Julie, Georgieva, Dimka, Hadjidekova, Valeria, Hatzi, Vasiliki I., Karachristou, Ioanna, Karakosta, Maria, Meschini, Roberta, M'Kacher, Radhia, Montoro, Alegria, Palitti, Fabrizio, Pantelias, Antonio, Pepe, Gaetano, Ricoul, Michelle, Sabatier, Laure, Sebastia, Natividad, Sommer, Sylwester, Vral, Anne, Zafiropoulos, Demetre, and Wojcik, Andrzej

Abstract

Purpose: Dose assessment intercomparisons within the RENEB network were performed for triage biodosimetry analyzing G(0)-lymphocyte PCC for harmonization, standardization and optimization of the PCC assay. Materials and methods: Comparative analysis among different partners for dose assessment included shipment of PCC-slides and captured images to construct dose-response curves for up to 6 Gy gamma-rays. Accident simulation exercises were performed to assess the suitability of the PCC assay by detecting speed of analysis and minimum number of cells required for categorization of potentially exposed individuals. Results: Calibration data based on Giemsa-stained fragments in excess of 46 PCC were obtained by different partners using galleries of PCC images for each dose-point. Mean values derived from all scores yielded a linear dose-response with approximately 4 excess-fragments/cell/Gy. To unify scoring criteria, exercises were carried out using coded PCC-slides and/or coded irradiated blood samples. Analysis of samples received 24h post-exposure was successfully performed using Giemsa staining (1 excess-fragment/cell/Gy) or centromere/telomere FISH-staining for dicentrics. Conclusions: Dose assessments by RENEB partners using appropriate calibration curves were mostly in good agreement. The PCC assay is quick and reliable for whole- or partial-body triage biodosimetry by scoring excess-fragments or dicentrics in G(0)-lymphocytes. Particularly, analysis of Giemsa-stained excess PCC-fragments is simple, inexpensive and its automation could increase throughput and scoring objectivity of the PCC assay.

Published
2017
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22. Dose assessment intercomparisons within the RENEB network using G0-lymphocyte prematurely condensed chromosomes (PCC assay)

Author

Terzoudi, Georgia I., primary, Pantelias, Gabriel, additional, Darroudi, Firouz, additional, Barszczewska, Katarzyna, additional, Buraczewska, Iwona, additional, Depuydt, Julie, additional, Georgieva, Dimka, additional, Hadjidekova, Valeria, additional, Hatzi, Vasiliki I., additional, Karachristou, Ioanna, additional, Karakosta, Maria, additional, Meschini, Roberta, additional, M’Kacher, Radhia, additional, Montoro, Alegria, additional, Palitti, Fabrizio, additional, Pantelias, Antonio, additional, Pepe, Gaetano, additional, Ricoul, Michelle, additional, Sabatier, Laure, additional, Sebastià, Natividad, additional, Sommer, Sylwester, additional, Vral, Anne, additional, Zafiropoulos, Demetre, additional, and Wojcik, Andrzej, additional

Published
2016
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23. Measurement of complex DNA damage induction and repair in human cellular systems after exposure to ionizing radiations of varying linear energy transfer (LET)

Author

Nikitaki, Zacharenia, primary, Nikolov, Vladimir, additional, Mavragani, Ifigeneia V., additional, Mladenov, Emil, additional, Mangelis, Anastasios, additional, Laskaratou, Danae A., additional, Fragkoulis, Georgios I., additional, Hellweg, Christine E., additional, Martin, Olga A., additional, Emfietzoglou, Dimitris, additional, Hatzi, Vasiliki I., additional, Terzoudi, Georgia I., additional, Iliakis, George, additional, and Georgakilas, Alexandros G., additional

Published
2016
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24. RENEB accident simulation exercise

Author

Brzozowska, Beata, primary, Ainsbury, Elizabeth, additional, Baert, Annelot, additional, Beaton-Green, Lindsay, additional, Barrios, Leonardo, additional, Barquinero, Joan Francesc, additional, Bassinet, Celine, additional, Beinke, Christina, additional, Benedek, Anett, additional, Beukes, Philip, additional, Bortolin, Emanuela, additional, Buraczewska, Iwona, additional, Burbidge, Christopher, additional, De Amicis, Andrea, additional, De Angelis, Cinzia, additional, Della Monaca, Sara, additional, Depuydt, Julie, additional, De Sanctis, Stefania, additional, Dobos, Katalin, additional, Domene, Mercedes Moreno, additional, Domínguez, Inmaculada, additional, Facco, Eva, additional, Fattibene, Paola, additional, Frenzel, Monika, additional, Monteiro Gil, Octávia, additional, Gonon, Géraldine, additional, Gregoire, Eric, additional, Gruel, Gaëtan, additional, Hadjidekova, Valeria, additional, Hatzi, Vasiliki I., additional, Hristova, Rositsa, additional, Jaworska, Alicja, additional, Kis, Enikő, additional, Kowalska, Maria, additional, Kulka, Ulrike, additional, Lista, Florigio, additional, Lumniczky, Katalin, additional, Martínez-López, Wilner, additional, Meschini, Roberta, additional, Moertl, Simone, additional, Moquet, Jayne, additional, Noditi, Mihaela, additional, Oestreicher, Ursula, additional, Orta Vázquez, Manuel Luis, additional, Palma, Valentina, additional, Pantelias, Gabriel, additional, Montoro Pastor, Alegria, additional, Patrono, Clarice, additional, Piqueret-Stephan, Laure, additional, Quattrini, Maria Cristina, additional, Regalbuto, Elisa, additional, Ricoul, Michelle, additional, Roch-Lefevre, Sandrine, additional, Roy, Laurence, additional, Sabatier, Laure, additional, Sarchiapone, Lucia, additional, Sebastià, Natividad, additional, Sommer, Sylwester, additional, Sun, Mingzhu, additional, Suto, Yumiko, additional, Terzoudi, Georgia, additional, Trompier, Francois, additional, Vral, Anne, additional, Wilkins, Ruth, additional, Zafiropoulos, Demetre, additional, Wieser, Albrecht, additional, Woda, Clemens, additional, and Wojcik, Andrzej, additional

Published
2016
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25. Mitochondria malfunctions as mediators of stem-cells' related carcinogenesis: A hypothesis that supports the highly conserved profile of carcinogenesis

Author

Hatzi, Vasiliki I. Terzoudi, Georgia I. Pantelias, Gabriel E. and Makropoulos, Vasilios

Abstract

Cancer development is an evolutionary process that has been highly conserved among centuries within organisms. Based on this, the interest in cancer research focuses on cells, organelles and genes that possess a genetic conservatism from yeasts to human. Towards this thought, mitochondria, the highly conserved and responsible for the cellular bioenergetic activity organelles, might play crucial role in carcinogenesis. Interestingly, tumors with low bioenergetic signature have worse prognosis and show a decreased expression of ATPase protein. Furthermore, according to the stem-cell theory of carcinogenesis, aggressive tumors are characterized by an increase number of malignant stem-like cell population and their resistance to chemotherapy has been found to be mitochondrially driven. The above considerations triggered us to hypothesize that mitochondrial bioenergetic processes in stem-like cancer cells plays a crucial role in the highly conserved process of carcinogenesis. Specifically, we support that mitochondrial and/or nuclear DNA alterations that control stem cells’ ATP production drive stem cells to “immortalization” (Otto Warburg theory) that mediates cancer initiation and progression. Substantiation of our hypothesis requires evidence that: (1) alterations in mitochondria bioenergetic metabolites and enzymes encoded either from the mtDNA or the nuclear DNA are linked to human cancer and (2) mitochondrial functions are regulated by highly conserved genes involved in cancer-related cellular processes such as apoptosis, aging and autophagy. Experimental approach on how this hypothesis might be tested and promising strategies in cancer therapeutics are also discussed. In case the hypothesis of stem-cell bioenergetic malformations’ related carcinogenesis proves to be correct, it would contribute to the development of new prognostic, diagnostic and even more effective therapeutic interventions against various types of cancer. (C) 2012 Elsevier Ltd. All rights reserved.

Published
2013

26. The radiosensitizing potential of glutaraldehyde on MCF7 breast cancer cells as quantified by means of the G2-chromosomal radiosensitivity assay

Author

Hatzi, Vasiliki I. Terzoudi, Georgia I. Barszczewska, Katarzyna and Makropoulos, Vasilios Pantelias, Gabriel E.

Abstract

Glutaraldehyde (GA) is a high production volume chemical that is very reactive with a wide spectrum of medical, scientific and industrial applications. Concerning the genotoxic and carcinogenic effect of GA, controversial results have been reported, while in humans no studies with positive carcinogenic results for GA have been published. However, our previous study concerning the combined effects of exposure to both GA and ionising radiation (IR) in peripheral blood lymphocytes of healthy donors has shown that non-genotoxic doses of the chemical induces a statistically significant increase in chromosomal radiosensitivity. The lack of information concerning the radiosensitizing potential of GA on cancerous cells triggered us to test the radiosensitizing effect of GA on breast cancer cells (MCF7). For this purpose the G2-chromosomal radiosensitivity assay (G2-assay) was used. The assay involves G2-phase irradiation and quantitation of the chromosomal fragility in the subsequent metaphase. The experimental data show that 48 h exposure to GA, at doses that are not clastogenic to MCF7 breast cancer cells enhances G2-chromosomal radiosensitivity of this cell line. In an effort to evaluate whether the observed increase in GAs-induced G2-chromosomal radiosensitization is linked to GA-induced alterations in the cell cycle and feedback control mechanism, Mitotic Index analysis was performed. The results have shown that such a mechanism cannot be directly related to the observed GA-induced increase in G2-chromosomal radiosensitivity. Since increased G2-chromosomal radiosensitivity has been linked with cancer proneness, the radiosensitizing effect of GA at non-clastogenic doses highlights its potential carcinogenic profile.

Published
2012

27. Chromatin dynamics during cell cycle mediate conversion of DNA damage into chromatid breaks and affect formation of chromosomal aberrations: Biological and clinical significance

Author

Terzoudi, Georgia I. Hatzi, Vasiliki I. Donta-Bakoyianni, Catherine Pantelias, Gabriel E.

Abstract

The formation of diverse chromosomal aberrations following irradiation and the variability in radiosensitivity at different cell-cycle stages remain a long standing controversy, probably because most of the studies have focused on elucidating the enzymatic mechanisms involved using simple DNA substrates. Yet, recognition, processing and repair of DNA damage occur within the nucleoprotein complex of chromatin which is dynamic in nature, capable of rapid unfolding, disassembling, assembling and refolding. The present work reviews experimental work designed to investigate the impact of chromatin dynamics and chromosome conformation changes during cell-cycle in the formation of chromosomal aberrations. Using conventional cytogenetics and premature chromosome condensation to visualize interphase chromatin, the data presented support the hypothesis that chromatin dynamic changes during cell-cycle are important determinants in the conversion of sub-microscopic DNA lesions into chromatid breaks. Consequently, the type and yield of radiation-induced chromosomal aberrations at a given cell-cycle-stage depends on the combined effect of DNA repair processes and chromatin dynamics, which is cell-cycle-regulated and subject to up- or down-regulation following radiation exposure or genetic alterations. This new hypothesis is used to explain the variability in radiosensitivity observed at various cell-cycle-stages, among mutant cells and cells of different origin, or among different individuals, and to revisit unresolved issues and unanswered questions. In addition, it is used to better understand hypersensitivity of AT cells and to provide an improved predictive G2-assay for evaluating radiosensitivity at individual level. Finally, experimental data at single cell level obtained using hybrid cells suggest that the proposed hypothesis applies only to the irradiated component of the hybrid. (C) 2010 Elsevier B.V. All rights reserved.

Published
2011

31. Dose assessment intercomparisons within the RENEB network using G 0 -lymphocyte prematurely condensed chromosomes (PCC assay).

Author

Terzoudi, Georgia I., Pantelias, Gabriel, Darroudi, Firouz, Barszczewska, Katarzyna, Buraczewska, Iwona, Depuydt, Julie, Georgieva, Dimka, Hadjidekova, Valeria, Hatzi, Vasiliki I., Karachristou, Ioanna, Karakosta, Maria, Meschini, Roberta, M'Kacher, Radhia, Montoro, Alegria, Palitti, Fabrizio, Pantelias, Antonio, Pepe, Gaetano, Ricoul, Michelle, Sabatier, Laure, and Sebastià, Natividad

Subjects
RADIATION protection, LYMPHOCYTES, PREMATURE chromosome condensation, PEPTIDE nucleic acids, CELL fusion
Abstract

Purpose: Dose assessment intercomparisons within the RENEB network were performed for triage biodosimetry analyzing G0-lymphocyte PCC for harmonization, standardization and optimization of the PCC assay. Materials and methods: Comparative analysis among different partners for dose assessment included shipment of PCC-slides and captured images to construct dose-response curves for up to 6 Gy γ-rays. Accident simulation exercises were performed to assess the suitability of the PCC assay by detecting speed of analysis and minimum number of cells required for categorization of potentially exposed individuals. Results: Calibration data based on Giemsa-stained fragments in excess of 46 PCC were obtained by different partners using galleries of PCC images for each dose-point. Mean values derived from all scores yielded a linear dose-response with approximately 4 excess-fragments/cell/Gy. To unify scoring criteria, exercises were carried out using coded PCC-slides and/or coded irradiated blood samples. Analysis of samples received 24 h post-exposure was successfully performed using Giemsa staining (1 excess-fragment/cell/Gy) or centromere/telomere FISH-staining for dicentrics. Conclusions: Dose assessments by RENEB partners using appropriate calibration curves were mostly in good agreement. The PCC assay is quick and reliable for whole- or partial-body triage biodosimetry by scoring excess-fragments or dicentrics in G0-lymphocytes. Particularly, analysis of Giemsa-stained excess PCC-fragments is simple, inexpensive and its automation could increase throughput and scoring objectivity of the PCC assay. [ABSTRACT FROM AUTHOR]

Published
2017
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38. DNA CONTENT ALTERATIONS IN TETRAHYMENA P YRIFORMIS MACRONUCLEUS AFTER EXPOSURE TO FOOD PRESERVATIVES SODIUM NITRATE AND SODIUM BENZOATE.

Author

LOUTSIDOU, ARIADNI C., HATZI, VASILIKI I., CHASAPIS, C. T., TERZOUDI, GEORGIA I., SPILIOPOULOU, CHARA A., and STEFANIDOU, MARIA E.

Subjects
SODIUM nitroferricyanide, SODIUM benzoate, TETRAHYMENA pyriformis, IMAGING systems, BENZOATES
Abstract

The article discusses a study aimed at testing the in vivo toxicity of sodium nitrate and sodium benzoate in terms of DNA content changes of the protozoan Tetrahymena pyriformis via the computerized DNA image analysis system. T. pyriformis protozoa were grown axenically in a proteose-peptone broth at 25 degrees Centigrade until they reach late log phase. The findings support a toxicogenomic effect of sodium nitrate and sodium benzoates in selected experimental model T. pyriformis.

Published
2012
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39. RENEB accident simulation exercise.

Author

Brzozowska B, Ainsbury E, Baert A, Beaton-Green L, Barrios L, Barquinero JF, Bassinet C, Beinke C, Benedek A, Beukes P, Bortolin E, Buraczewska I, Burbidge C, De Amicis A, De Angelis C, Della Monaca S, Depuydt J, De Sanctis S, Dobos K, Domene MM, Domínguez I, Facco E, Fattibene P, Frenzel M, Monteiro Gil O, Gonon G, Gregoire E, Gruel G, Hadjidekova V, Hatzi VI, Hristova R, Jaworska A, Kis E, Kowalska M, Kulka U, Lista F, Lumniczky K, Martínez-López W, Meschini R, Moertl S, Moquet J, Noditi M, Oestreicher U, Orta Vázquez ML, Palma V, Pantelias G, Montoro Pastor A, Patrono C, Piqueret-Stephan L, Quattrini MC, Regalbuto E, Ricoul M, Roch-Lefevre S, Roy L, Sabatier L, Sarchiapone L, Sebastià N, Sommer S, Sun M, Suto Y, Terzoudi G, Trompier F, Vral A, Wilkins R, Zafiropoulos D, Wieser A, Woda C, and Wojcik A

Subjects
Europe, Disaster Planning organization & administration, Radiation Monitoring methods, Radioactive Hazard Release, Radiobiology education, Safety Management organization & administration, Triage organization & administration
Abstract

Purpose: The RENEB accident exercise was carried out in order to train the RENEB participants in coordinating and managing potentially large data sets that would be generated in case of a major radiological event., Materials and Methods: Each participant was offered the possibility to activate the network by sending an alerting email about a simulated radiation emergency. The same participant had to collect, compile and report capacity, triage categorization and exposure scenario results obtained from all other participants. The exercise was performed over 27 weeks and involved the network consisting of 28 institutes: 21 RENEB members, four candidates and three non-RENEB partners., Results: The duration of a single exercise never exceeded 10 days, while the response from the assisting laboratories never came later than within half a day. During each week of the exercise, around 4500 samples were reported by all service laboratories (SL) to be examined and 54 scenarios were coherently estimated by all laboratories (the standard deviation from the mean of all SL answers for a given scenario category and a set of data was not larger than 3 patient codes)., Conclusions: Each participant received training in both the role of a reference laboratory (activating the network) and of a service laboratory (responding to an activation request). The procedures in the case of radiological event were successfully established and tested.

Published
2017
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40. Stress induced by premature chromatin condensation triggers chromosome shattering and chromothripsis at DNA sites still replicating in micronuclei or multinucleate cells when primary nuclei enter mitosis.

Author

Terzoudi GI, Karakosta M, Pantelias A, Hatzi VI, Karachristou I, and Pantelias G

Subjects
Animals, CHO Cells, Cell Nucleus drug effects, Cell Nucleus radiation effects, Cells, Cultured, Chromatin drug effects, Chromatin radiation effects, Chromosome Aberrations, Cricetulus, DNA drug effects, DNA radiation effects, Humans, Lymphocytes drug effects, Lymphocytes radiation effects, Cell Nucleus genetics, Chromatin genetics, Cytochalasin B pharmacology, DNA genetics, Mitosis drug effects, Mitosis radiation effects
Abstract

Combination of next-generation DNA sequencing, single nucleotide polymorphism array analyses and bioinformatics has revealed the striking phenomenon of chromothripsis, described as complex genomic rearrangements acquired in a single catastrophic event affecting one or a few chromosomes. Via an unproven mechanism, it is postulated that mechanical stress causes chromosome shattering into small lengths of DNA, which are then randomly reassembled by DNA repair machinery. Chromothripsis is currently examined as an alternative mechanism of oncogenesis, in contrast to the present paradigm that considers a stepwise development of cancer. While evidence for the mechanism(s) underlying chromosome shattering during cancer development remains elusive, a number of hypotheses have been proposed to explain chromothripsis, including ionizing radiation, DNA replication stress, breakage-fusion-bridge cycles, micronuclei formation and premature chromosome compaction. In the present work, we provide experimental evidence on the mechanistic basis of chromothripsis and on how chromosomes can get locally shattered in a single catastrophic event. Considering the dynamic nature of chromatin nucleoprotein complex, capable of rapid unfolding, disassembling, assembling and refolding, we first show that chromatin condensation at repairing or replicating DNA sites induces the mechanical stress needed for chromosome shattering to ensue. Premature chromosome condensation is then used to visualize the dynamic nature of interphase chromatin and demonstrate that such mechanical stress and chromosome shattering can also occur in chromosomes within micronuclei or asynchronous multinucleate cells when primary nuclei enter mitosis. Following an aberrant mitosis, chromosomes could find themselves in the wrong place at the wrong time so that they may undergo massive DNA breakage and rearrangement in a single catastrophic event. Specifically, our results support the hypothesis that premature chromosome condensation induces mechanical stress and triggers shattering and chromothripsis in chromosomes or chromosome arms still undergoing DNA replication or repair in micronuclei or asynchronous multinucleate cells, when primary nuclei enter mitosis., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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41. Low concentrations of caffeine induce asymmetric cell division as observed in vitro by means of the CBMN-assay and iFISH.

Author

Hatzi VI, Karakosta M, Barszczewska K, Karachristou I, Pantelias G, and Terzoudi GI

Subjects
Chromosome Aberrations, Cytochalasin B pharmacology, DNA Replication drug effects, Dose-Response Relationship, Drug, In Situ Hybridization, Fluorescence, In Vitro Techniques, Interphase radiation effects, Lymphocytes drug effects, Micronucleus Tests, Caffeine pharmacology, Cell Division drug effects, Lymphocytes cytology, Micronuclei, Chromosome-Defective radiation effects
Abstract

The dual role of caffeine as a chromosomal damage inducer and G2/M-checkpoint abrogator is well known but it is observed mainly at relatively high concentrations. At low concentrations, caffeine enhances the cytogenetic effects of several carcinogens and its intake during pregnancy has been recently reported to cause adverse birth outcomes. Interestingly, a threshold below which this association is not apparent was not identified. Since chromosomal abnormalities and aneuploidy are the major genetic etiologies of spontaneous abortions and adverse birth outcomes, we re-evaluate here the effects of caffeine at the cytogenetic level and propose a model for the mechanisms involved. Our hypothesis is that low caffeine concentrations affect DNA replication and cause chromosomal aberrations and asymmetric cell divisions not easily detected at metaphase since damaged cells are delayed during their G2/M-phase transition and the low caffeine concentrations cannot abrogate the G2-checkpoint. To test this hypothesis, caffeine-induced chromatid breaks and micronuclei in peripheral blood lymphocytes (PBLs) were evaluated in vitro after low caffeine concentration exposures, followed by a short treatment with 4mM of caffeine to abrogate the G2-checkpoint. The results show a statistically significant increase in chromatid breaks at caffeine concentrations ≥1mM. When caffeine was applied for G2/M-checkpoint abrogation, a statistically significant increase in chromatid breaks, compared to an active checkpoint, was only observed at 4mM of caffeine. The potential of low concentrations to induce asymmetric cell divisions was tested by applying a methodology combining the cytochalasin-B mediated cytokinesis-block micronucleus assay (CBMN) with interphase FISH (iFISH), using selected centromeric probes. Interestingly, low caffeine concentrations induce a dose dependent aneuploidy through asymmetric cell divisions, which are caused by misalignment of chromosomes through a mechanism unrelated to the formation of chromatid breaks. The cytogenetic approach used, combining CBMN with iFISH, is proposed as a valuable tool to test chemically induced asymmetric cell divisions., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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42. Triage biodosimetry using centromeric/telomeric PNA probes and Giemsa staining to score dicentrics or excess fragments in non-stimulated lymphocyte prematurely condensed chromosomes.

Author

Karachristou I, Karakosta M, Pantelias A, Hatzi VI, Karaiskos P, Dimitriou P, Pantelias G, and Terzoudi GI

Subjects
Azure Stains, Cells, Cultured, DNA Probes genetics, Humans, In Situ Hybridization, Fluorescence, Lymphocytes cytology, Resting Phase, Cell Cycle, Telomere genetics, Triage methods, Centromere genetics, Chromosome Aberrations, Lymphocytes radiation effects, Peptide Nucleic Acids genetics, Radiometry methods
Abstract

The frequency of dicentric chromosomes in human peripheral blood lymphocytes at metaphase is considered as the "gold-standard" method for biological dosimetry and, presently, it is the most widely used for dose assessment. Yet, it needs lymphocyte stimulation and a 2-day culture, failing the requirement of rapid dose estimation, which is a high priority in radiation emergency medicine and triage biodosimetry. In the present work, we assess the applicability of cell fusion mediated premature chromosome condensation (PCC) methodology, which enables the analysis of radiation-induced chromosomal aberrations directly in non-stimulated G0-lymphocytes, without the 2-day culture delay. Despite its advantages, quantification of an exposure by means of the PCC-method is not currently widely used, mainly because Giemsa-staining of interphase G0-lymphocyte chromosomes facilitates the analysis of fragments and rings, but not of dicentrics. To overcome this shortcoming, the PCC-method is combined with fluorescence in situ hybridization (FISH), using simultaneously centromeric/telomeric peptide nucleic acid (PNA)-probes. This new approach enables an accurate analysis of dicentric and centric ring chromosomes, which are formed within 8h post irradiation and will, therefore, be present in the blood sample by the time it arrives for dose estimation. For triage biodosimetry, a dose response curve for up to 10Gy was constructed and compared to that obtained using conventional metaphase analysis with Giemsa or centromeric/telomeric PNA-probes in metaphase. Since FISH is labor intensive, a simple PCC-method scoring Giemsa-stained fragments in excess of 46 was also assessed as an even more rapid approach for triage biodosimetry. First, we studied the rejoining kinetics of fragments and constructed a dose-response curve for 24h repair time. Then, its applicability was assessed for four different doses and compared with the PCC-method using centromeric/telomeric PNA-probes, through the evaluation of speed of analysis and minimum number of cells required for dose estimation and categorization of exposed individuals., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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43. G2-checkpoint abrogation in irradiated lymphocytes: A new cytogenetic approach to assess individual radiosensitivity and predisposition to cancer.

Author

Terzoudi GI, Hatzi VI, Barszczewska K, Manola KN, Stavropoulou C, Angelakis P, and Pantelias GE

Subjects
DNA Damage radiation effects, G2 Phase genetics, Hematologic Tests, Humans, Reproducibility of Results, G2 Phase radiation effects, Genetic Predisposition to Disease, Genetic Techniques, Lymphocytes radiation effects, Neoplasms genetics, Radiation Tolerance genetics
Abstract

Increased yield of chromatid breaks, following in vitro G2-phase lymphocyte irradiation, can be a marker of individual radiosensitivity and cancer predisposing genes whose role is to respond to DNA damage. Mutations or polymorphisms of genes encoding DNA repair pathways may underlie the increased chromosomal radiosensitivity. However, genes that facilitate DNA damage recognition, using signal transduction pathways to activate cell cycle arrest and preserve genomic integrity, are perhaps the most important determinant. Based on the latter hypothesis, an individual radiosensitivity parameter (IRP) is introduced, which expresses, at individual level, the G2-checkpoint potential to facilitate DNA damage recognition and repair of radiation-induced chromosomal damage during G2 to M-phase transition. Based on this parameter a new methodology for assessment of individual radiosensitivity is proposed, which involves G2-checkpoint abrogation by caffeine to obtain the IRP values. To evaluate the proposed methodology, blood samples from 52 healthy donors were taken for inter-individual radiosensitivity analysis using both the conventional G2 chromosomal radiosensitivity assay as well as the new approach using caffeine-induced G2-checkpoint abrogation. The two assays were compared in experiments using samples from 5 hypersensitive patients, 3 AT-homozygotes, 3 AT-heterozygotes, and the GM15786, GM03188A, GM09899, HCC1937 and MCF-7 cell lines. Using the G2 chromosomal radiosensitivity assay, donors are predicted as G2 radiosensitive or normal, while according to the new approach, individuals can be classified as highly radiosensitive, radiosensitive, normal, radioresistant and highly radioresistant. Overall, the new approach provides better individual radiosensitivity discrimination and intra-experimental reproducibility. Therefore, the proposed methodology using IRP values may provide a clinically applicable predictive assay for individual radiosensitivity and predisposition to cancer.

Published
2009
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44. The benzene metabolite hydroquinone enhances G2-chromosomal radiosensitivity by inducing a less-efficient G2-M-checkpoint in irradiated lymphocytes.

Author

Hatzi VI, Terzoudi GI, Pantelias GE, Spiliopoulou C, and Makropoulos V

Subjects
Benzene metabolism, Cell Division genetics, Cells, Cultured, G2 Phase genetics, Humans, Karyotyping, Lymphocytes drug effects, Lymphocytes radiation effects, Marine Toxins, Oxazoles toxicity, Carcinogens toxicity, Chromosome Aberrations, G2 Phase drug effects, Hydroquinones toxicity, Radiation Tolerance drug effects
Abstract

The hypothesis tested is that a 24-h pre-irradiation-exposure of peripheral blood lymphocytes (PBL) to the benzene metabolite hydroquinone (HQ), at doses that are non-acutely toxic (5 microM), induces a less efficient G2-M-checkpoint and enhances the G2-chromosomal radiosensitivity in a statistically significant manner (p<0.01). A less efficient G2-M-checkpoint may allow the transition of damaged cells from G2- to M-phase and experimental data in the present work support this hypothesis. In fact HQ sensitizes lymphocytes obtained from healthy donors, as they exhibit increased G2-chromosomal radiosensitivity which interestingly is similar to that observed in cases of radiosensitive cancer-prone individuals. This finding is important since a deficiency in cell cycle checkpoints and an increase in G2-chromosomal radiosensitivity are linked to chromosomal instability, cancer proneness and the development of leukemia. The observed chromosome radiosensitization may be a consequence either of an effect of HQ on the initial induction of radiation-induced chromosomal aberrations, or on the DNA repair capacity of the cells, or it may be linked to HQ-induced alterations in the cell cycle and feedback control mechanism during the G2- to M-phase transition. In order to elucidate which is the mechanism involved, conventional cytogenetics and premature chromosome condensation (PCC) methodologies were applied. The experimental data obtained support the hypothesis that HQ increases G2-chromosomal radiosensitivity in human peripheral blood lymphocytes by inducing a less efficient G2-M-checkpoint, facilitating thus the transition of damaged cells from G2- to M-phase.

Published
2007

45. The use of premature chromosome condensation to study in interphase cells the influence of environmental factors on human genetic material.

Author

Hatzi VI, Terzoudi GI, Paraskevopoulou C, Makropoulos V, Matthopoulos DP, and Pantelias GE

Subjects
Animals, Cell Fusion methods, Humans, Lymphocytes cytology, Lymphocytes metabolism, Chromosomes, Human genetics, Chromosomes, Human metabolism, Environment, Genetic Techniques, Interphase genetics
Abstract

Nowadays, there is a constantly increasing concern regarding the mutagenic and carcinogenic potential of a variety of harmful environmental factors to which humans are exposed in their natural and anthropogenic environment. These factors exert their hazardous potential in humans' personal (diet, smoking, pharmaceuticals, cosmetics) and occupational environment that constitute part of the anthropogenic environment. It is well known that genetic damage due to these factors has dramatic implications for human health. Since most of the environmental genotoxic factors induce arrest or delay in cell cycle progression, the conventional analysis of chromosomes at metaphase may underestimate their genotoxic potential. Premature Chromosome Condensation (PCC) induced either by means of cell fusion or specific chemicals, enables the microscopic visualization of interphase chromosomes whose morphology depends on the cell cycle stage, as well as the analysis of structural and numerical aberrations at the G1 and G2 phases of the cell cycle. The PCC has been successfully used in problems involving cell cycle analysis, diagnosis and prognosis of human leukaemia, assessment of interphase chromosome malformations resulting from exposure to radiation or chemicals, as well as elucidation of the mechanisms underlying the conversion of DNA damage into chromosomal damage. In this report, particular emphasis is given to the advantages of the PCC methodology used as an alternative to conventional metaphase analysis in answering questions in the fields of radiobiology, biological dosimetry, toxicogenetics, clinical cytogenetics and experimental therapeutics.

Published
2006
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