Biodosimetry using radiation-induced micronuclei in skin fibroblasts

Improving Patients’ Life Quality after Radiotherapy Treatment by Predicting Late Toxicities

Simple Summary

Over 50% of patients with cancer will receive radiotherapy treatment. Five to ten percent of patients who received radiotherapy will develop side effects. Identifying these patients before treatment start would allow for treatment modification to minimize these effects and improve the life quality of these patients. Our team developed a test, which allows predicting these secondary effects before starting the treatment. This will help in proposing personalized treatments to improve the outcome. This review presents how this test is performed, its results, as well as its modification in order to be used in hospitals.

Abstract

Personalized treatment and precision medicine have become the new standard of care in oncology and radiotherapy. Because treatment outcomes have considerably improved over the last few years, permanent side-effects are becoming an increasingly significant issue for cancer survivors. Five to ten percent of patients will develop severe late toxicity after radiotherapy. Identifying these patients before treatment start would allow for treatment adaptation to minimize definitive side effects that could impair their long-term quality of life. Over the last decades, several tests and biomarkers have been developed to identify these patients. However, out of these, only the Radiation-Induced Lymphocyte Apoptosis (RILA) assay has been prospectively validated in multi-center cohorts. This test, based on a simple blood draught, has been shown to be correlated with late radiation-induced toxicity in breast, prostate, cervical and head and neck cancer. It could therefore greatly improve decision making in precision radiation oncology. This literature review summarizes the development and bases of this assay, as well as its clinical results and compares its results to the other available assays.

Tumour and normal tissue radiosensitivity

The place of personalized treatments is highly increasing in medical and radiation oncology. During the last decades, a huge number of assays have been developed to predict responses of normal tissues and tumours. These tests have not yet been included into daily clinical practice but the recent developments of radiation oncology are paving the way of personalized strategies including the risk of tumour recurrence and normal tissue reactions. Concerning tumor radiosensitivity prediction, no test are currently used, even if the radiosensitivity index and the genome-based model for adjusting radiotherapy dose assays seem the most promising with level II of evidence. Commercial developments are under progress. Concerning normal tissue radiosensitivity prediction, single nucleotide polymorphims of prostate cancer patients and radiation-induced CD8 T-lymphocyte apoptosis breast and prostate assays are of level I of evidence. They can be proposed before the beginning of radiotherapy in order to propose personalized treatments according to both risks of tumour and normal tissue radiosensitivity. Commercial developments are also under way.

Evaluation of Gamma Radiation-Induced Biochemical Changes in Skin for Dose Assesment: A Study on Small Experimental Animals

OBJECTIVE

Researchers have been evaluating several approaches to assess acute radiation injury/toxicity markers owing to radiation exposure. Keeping in mind this background, we assumed that whole-body irradiation in single fraction in graded doses can affect the antioxidant profile in skin that could be used as an acute radiation injury/toxicity marker.

METHODS

Sprague-Dawley rats were treated with CO-60 gamma radiation (dose: 1-5 Gy; dose rate: 0.85 Gy/minute). Skin samples were collected (before and after radiation up to 72 hours) and analyzed for glutathione (GSH), glutathione peroxidase (GPx), superoxide dismutase (SOD), catalase (CAT), and lipid peroxidation (LPx).

RESULTS

Intra-group comparison showed significant differences in GSH, GPx, SOD, and CAT, and they declined in a dose-dependent manner from 1 to 5 Gy (P value0.05).

CONCLUSIONS

This study suggests that skin antioxidants were sensitive toward radiation even at a low radiation dose, which can be used as a predictor of radiation injury and altered in a dose-dependent manner. These biochemical parameters may have wider application in the evaluation of radiation-induced skin injury and dose assessment. (Disaster Med Public Health Preparedness. 2019;13:197-202).

Gene expression as a biomarker for human radiation exposure

Accidental exposure to ionizing radiation can be unforeseen, rapid, and devastating. The detonation of a radiological device leading to such an exposure can be detrimental to the exposed population. The radiation-induced damage may manifest as acute effects that can be detected clinically or may be more subtle effects that can lead to long-term radiation-induced abnormalities. Accurate identification of the individuals exposed to radiation is challenging. The availability of a rapid and effective screening test that could be used as a biomarker of radiation exposure detection is mandatory. We tested the suitability of alterations in gene expression to serve as a biomarker of human radiation exposure. To develop a useful gene expression biomonitor, however, gene expression changes occurring in response to irradiation in vivo must be measured directly. Patients undergoing radiation therapy provide a suitable test population for this purpose. We examined the expression of CC3, MADH7, and SEC PRO in blood samples of these patients before and after radiotherapy to measure the in vivo response. The gene expression after ionizing radiation treatment varied among different patients, suggesting the complexity of the response. The expression of the SEC PRO gene was repressed in most of the patients. The MADH7 gene was found to be upregulated in most of the subjects and could serve as a molecular marker of radiation exposure.

Investigations into the role of inflammation in normal tissue response to irradiation

PURPOSE

Radiation-induced inflammation and production of reactive oxygen species (ROS) play a critical role in normal tissue response. In this study we have examined some aspects of these effects in lung and skin.

METHODS

The superoxide dismutase (SOD) catalase mimetic, EUK-207, and genistein, an isoflavone with anti-inflammatory properties, were given post-irradiation and micronuclei (MN) formation was determined in cells derived from irradiated lung and skin. Changes in breathing rate were measured using a plethysmograph following irradiation of C57Bl6 mice knocked out for tumor necrosis factor (TNF)-alpha or its receptors, TNFR1/2, or treated with endotoxin (lipopolysaccharide - LPS).

RESULTS

Both EUK-207 and genistein given after irradiation caused a large reduction in MN levels observed in lung cells during 14 weeks post-irradiation but ceasing treatment resulted in a rebound in MN levels at 28 weeks post-irradiation. In contrast, treatment with EUK-207 was largely ineffective in reducing MN observed in skin cells post-irradiation. Knock-out of TNF-alpha resulted in a reduced increase in breathing rate (peak at 12 weeks post-irradiation) relative to wild-type and TNFR1/2 knock-out. Treatment with LPS 1 h post-irradiation also reduced the increase in breathing rate.

CONCLUSIONS

The increase in MN in lung cells after treatment with EUK-207 or genistein was stopped suggests that continuing ROS production contributes to DNA damage in lung cells over prolonged periods. That this effect was not seen in skin suggests this mechanism is less prominent in this tissue. The reduced level of radiation pneumonitis (as monitored by breathing rate changes) in animals knocked out for TNF-alpha suggests that this cytokine plays a significant role in inducing inflammation in lung following irradiation. The similar effect observed following LPS given post-irradiation suggests the possibility that such treatment modifies the long-term cyclic inflammatory response following irradiation in lungs.