TY - JOUR
T1 - Synthetic secoisolariciresinol diglucoside (LGM2605) protects human lung in an ex vivo model of proton radiation damage
AU - Velalopoulou, Anastasia
AU - Chatterjee, Shampa
AU - Pietrofesa, Ralph A.
AU - Koziol-White, Cynthia
AU - Panettieri, Reynold A.
AU - Lin, Liyong
AU - Tuttle, Stephen
AU - Berman, Abigail
AU - Koumenis, Constantinos
AU - Christofidou-Solomidou, Melpo
N1 - Publisher Copyright:
© 2017 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2017/12
Y1 - 2017/12
N2 - Radiation therapy for the treatment of thoracic malignancies has improved significantly by directing of the proton beam in higher doses on the targeted tumor while normal tissues around the tumor receive much lower doses. Nevertheless, exposure of normal tissues to protons is known to pose a substantial risk in long-term survivors, as confirmed by our work in space-relevant exposures of murine lungs to proton radiation. Thus, radioprotective strategies are being sought. We established that LGM2605 is a potent protector from radiation-induced lung toxicity and aimed in the current study to extend the initial findings of space-relevant, proton radiation-associated late lung damage in mice by looking at acute changes in human lung. We used an ex vivo model of organ culture where tissue slices of donor living human lung were kept in culture and exposed to proton radiation. We exposed donor human lung precision-cut lung sections (huPCLS), pretreated with LGM2605, to 4 Gy proton radiation and evaluated them 30 min and 24 h later for gene expression changes relevant to inflammation, oxidative stress, and cell cycle arrest, and determined radiation-induced senescence, inflammation, and oxidative tissue damage. We identified an LGM2605-mediated reduction of proton radiation-induced cellular senescence and associated cell cycle changes, an associated proinflammatory phenotype, and associated oxidative tissue damage. This is a first report on the effects of proton radiation and of the radioprotective properties of LGM2605 on human lung.
AB - Radiation therapy for the treatment of thoracic malignancies has improved significantly by directing of the proton beam in higher doses on the targeted tumor while normal tissues around the tumor receive much lower doses. Nevertheless, exposure of normal tissues to protons is known to pose a substantial risk in long-term survivors, as confirmed by our work in space-relevant exposures of murine lungs to proton radiation. Thus, radioprotective strategies are being sought. We established that LGM2605 is a potent protector from radiation-induced lung toxicity and aimed in the current study to extend the initial findings of space-relevant, proton radiation-associated late lung damage in mice by looking at acute changes in human lung. We used an ex vivo model of organ culture where tissue slices of donor living human lung were kept in culture and exposed to proton radiation. We exposed donor human lung precision-cut lung sections (huPCLS), pretreated with LGM2605, to 4 Gy proton radiation and evaluated them 30 min and 24 h later for gene expression changes relevant to inflammation, oxidative stress, and cell cycle arrest, and determined radiation-induced senescence, inflammation, and oxidative tissue damage. We identified an LGM2605-mediated reduction of proton radiation-induced cellular senescence and associated cell cycle changes, an associated proinflammatory phenotype, and associated oxidative tissue damage. This is a first report on the effects of proton radiation and of the radioprotective properties of LGM2605 on human lung.
KW - Antioxidant
KW - Cell cycle
KW - Human lung sections
KW - Inflammation
KW - LGM2605
KW - Organ culture
KW - Oxidative stress
KW - Phase II enzymes
KW - Proton radiation
KW - Reactive oxygen species
KW - Senescence
UR - http://www.scopus.com/inward/record.url?scp=85035773943&partnerID=8YFLogxK
U2 - 10.3390/ijms18122525
DO - 10.3390/ijms18122525
M3 - Article
C2 - 29186841
AN - SCOPUS:85035773943
SN - 1661-6596
VL - 18
JO - International Journal of Molecular Sciences
JF - International Journal of Molecular Sciences
IS - 12
M1 - 2525
ER -