Purpose Proton beam therapy has been used in clinic with a great success, however, not many experimental studies has been performed. The goal of our study was to determine the cellular response to low, sublethal doses of proton beam irradiation, in particular DNA damage, cell cycle arrest, changes in expression of proteins, and effect on metastases in vivo.
Methods BLM cells were irradiated with 1‐7 Gy of proton beam irradiation. The source of the 58 MeV proton beam was the AIC‐144 cyclotron at Institute of Nuclear Physics, Polish Academy of Sciences, Kraków. Tumors of Bomirski Hamster Melanoma (BHM) implanted into the anterior chamber of the hamster eye grew aggressively and completely filled the anterior chamber within 8‐10 days. Metastases, mainly in the lung, were found in 100% of untreated animals 30 days after enucleation. The protons were accelerated using AIC‐144 isochronous cyclotron, operating at 60 MeV and BHM tumors located in the anterior chamber of the eye were irradiated with 10 Gy, for the depth of 3.88 mm.
Results Slow accumulation of damage was observed reflected in slowing of the proliferation rate, and increase in caspases activity with time. The number of cells in G2/M and >2n increased with proton beam dose. Proton beam irradiation caused upregulation of proteins involved in: DNA repair, RNA functioning (i.e. stress granule and P‐bodies components), apoptosis and survival processes and downregulation of enzymes engaged in glycolysis. Of particular interest was heavy downregulation of vimentin (2.4 times), involved in structural integrity of cells and tissues, adhesion and migration, and other processes. Irradiation led to changes in cell migratory properties. Proton beam irradiation caused inhibition of tumor growth by about 10 days and inhibition of metastastic spread.
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