INVESTIGADORES
POLICASTRO Lucia Laura
artículos
Título:
INDUCTION AND REJOINING OF DNA DOUBLE STRAND BREAKS ASSESSED BY H2AX PHOSPORILATION IN MELANOMA CELLS IRRADIATED WITH PROTONS AND LITHIUM BEAMS
Autor/es:
IBAÑEZ IL; BRACALENTE C; MOLINARI B; PALMIERI M; POLICASTRO L; KREINER AJ; BURLÓN A; VALDA A; NAVALESI D; DAVIDSON J; DAVIDSON M; VÁZQUEZ M; OZAFRÁN M; DURAN H
Revista:
INTERNATIONAL JOURNAL OF RADIATION ONCOLOGY BIOLOGY PHYSICS
Editorial:
ELSEVIER SCIENCE INC
Referencias:
Lugar: 74(4):1226-35, 2009; Año: 2009 vol. 74 p. 1226 - 1235
ISSN:
0360-3016
Resumen:
Purpose: The aim of this study was to evaluate the induction and rejoining of DNA double strand breaks (DSBs) in
melanoma cells exposed to low and high linear energy transfer (LET) radiation.
Methods and Materials: DSBs and survival were determined as a function of dose in melanoma cells (B16-F0) irradiated
with monoenergetic proton and lithium beams and with a gamma source. Survival curves were obtained
by clonogenic assay and fitted to the linear-quadratic model. DSBs were evaluated by the detection of phosphorylated
histone H2AX (gH2AX) foci at 30 min and 6 h post-irradiation.
Results: Survival curves showed the increasing effectiveness of radiation as a function of LET. gH2AX labeling
showed an increase in the number of foci vs. dose for all the radiations evaluated. A decrease in the number of
foci was found at 6 h post-irradiation for low LET radiation, revealing the repair capacity of DSBs. An increase
in the size of gH2AX foci in cells irradiated with lithium beams was found, as compared with gamma and proton
irradiations, which could be attributed to the clusters of DSBs induced by high LETradiation. Foci size increased
at 6 h post-irradiation for lithium and proton irradiations in relation with persistent DSBs, showing a correlation
with surviving fraction.
Conclusions: Our results showed the response of B16-F0 cells to charged particle beams evaluated by the detection
of gH2AX foci. We conclude that gH2AX foci size is an accurate parameter to correlate the rejoining of DSBsgH2AX) foci at 30 min and 6 h post-irradiation.
Results: Survival curves showed the increasing effectiveness of radiation as a function of LET. gH2AX labeling
showed an increase in the number of foci vs. dose for all the radiations evaluated. A decrease in the number of
foci was found at 6 h post-irradiation for low LET radiation, revealing the repair capacity of DSBs. An increase
in the size of gH2AX foci in cells irradiated with lithium beams was found, as compared with gamma and proton
irradiations, which could be attributed to the clusters of DSBs induced by high LETradiation. Foci size increased
at 6 h post-irradiation for lithium and proton irradiations in relation with persistent DSBs, showing a correlation
with surviving fraction.
Conclusions: Our results showed the response of B16-F0 cells to charged particle beams evaluated by the detection
of gH2AX foci. We conclude that gH2AX foci size is an accurate parameter to correlate the rejoining of DSBsgH2AX labeling
showed an increase in the number of foci vs. dose for all the radiations evaluated. A decrease in the number of
foci was found at 6 h post-irradiation for low LET radiation, revealing the repair capacity of DSBs. An increase
in the size of gH2AX foci in cells irradiated with lithium beams was found, as compared with gamma and proton
irradiations, which could be attributed to the clusters of DSBs induced by high LETradiation. Foci size increased
at 6 h post-irradiation for lithium and proton irradiations in relation with persistent DSBs, showing a correlation
with surviving fraction.
Conclusions: Our results showed the response of B16-F0 cells to charged particle beams evaluated by the detection
of gH2AX foci. We conclude that gH2AX foci size is an accurate parameter to correlate the rejoining of DSBsgH2AX foci in cells irradiated with lithium beams was found, as compared with gamma and proton
irradiations, which could be attributed to the clusters of DSBs induced by high LETradiation. Foci size increased
at 6 h post-irradiation for lithium and proton irradiations in relation with persistent DSBs, showing a correlation
with surviving fraction.
Conclusions: Our results showed the response of B16-F0 cells to charged particle beams evaluated by the detection
of gH2AX foci. We conclude that gH2AX foci size is an accurate parameter to correlate the rejoining of DSBsgH2AX foci. We conclude that gH2AX foci size is an accurate parameter to correlate the rejoining of DSBs