Investigations of DNA damage induction and repair resulting from cellular exposure to high dose-rate pulsed proton beams


Autoria(s): Renis, M.; Borghesi, M.; Favetta, M.; Malfa, G.; Manti, L.; Romano, F.; Schettino, G.; Tomasello, B.; Cirrone, G.A.P.
Contribuinte(s)

Margarone, Daniele

Cirrone, Pablo

Cuttone, Giacomo

Korn, George

Data(s)

26/07/2013

Resumo

Studies regarding the radiobiological effects of low dose radiation, microbeam irradiation services have been developed in the world and today laser acceleration of protons and heavy ions may be used in radiation therapy. The application of different facilities is essential for studying bystander effects and relating signalling phenomena in different cells or tissues. In particular the use of ion beams results advantageous in cancer radiotherapy compared to more commonly used X-rays, since the ability of ions in delivering lethal amount of doses into the target tumour avoiding or limiting damage to the contiguous healthy tissues. At the INFN-LNS in Catania, a multidisciplinary radiobiology group is strategically structured aimed to develop radiobiological research, finalised to therapeutic applications, compatible with the use of high dose laser-driven ion beams. The characteristic non-continuous dose rates with several orders of magnitude of laser-driven ion beams makes this facility very interesting in the cellular systems' response to ultra-high dose rates with non-conventional pulse time intervals cellular studies. Our group have projected to examine the effect of high dose laser-driven ion beams on two cellular types: foetal fibroblasts (normal control cells) and DU145 (prostate cancer cells), studying the modulation of some different bio-molecular parameters, in particular cell proliferation and viability, DNA damage, redox cellular status, morphological alterations of both the cytoskeleton components and some cell organelles and the possible presence of apoptotic or necrotic cell death. Our group performed preliminary experiments with high energy (60 MeV), dose rate of 10 Gy/min, doses of 1, 2, 3 Gy and LET 1 keV/µm on human foetal fibroblasts (control cells). We observed that cell viability was not influenced by the characteristics of the beam, the irradiation conditions or the analysis time. Conversely, DNA damage was present at time 0, immediately following irradiation in a dose-dependent manner. The analysis of repair capability showed that the cells irradiated with 1 and 2 Gy almost completely recovered from the damage, but not, however, 3 Gy treated cells in which DNA damage was not recovered. In addition, the results indicate the importance of the use of an appropriate control in radiobiological in vitro analysis.

Formato

application/pdf

Identificador

http://pure.qub.ac.uk/portal/en/publications/investigations-of-dna-damage-induction-and-repair-resulting-from-cellular-exposure-to-high-doserate-pulsed-proton-beams(037e9c8c-2147-4328-a8c8-608cb4eeba18).html

http://dx.doi.org/10.1063/1.4816615

http://pure.qub.ac.uk/ws/files/5228277/APC000096.pdf

Idioma(s)

eng

Publicador

AIP Publishing

Direitos

info:eu-repo/semantics/openAccess

Fonte

Renis , M , Borghesi , M , Favetta , M , Malfa , G , Manti , L , Romano , F , Schettino , G , Tomasello , B & Cirrone , G A P 2013 , Investigations of DNA damage induction and repair resulting from cellular exposure to high dose-rate pulsed proton beams . in D Margarone , P Cirrone , G Cuttone & G Korn (eds) , AIP Conference Proceedings for 2nd ELIMED Workshop and Panel . vol. 1546 , AIP Publishing , pp. 96-100 , 2nd ELIMED Workshop and Panel , Catania , Italy , 18-19 October . DOI: 10.1063/1.4816615

Tipo

contributionToPeriodical