Project description:Two morphotypes of Limnospira indica (formerly Arthrospira sp.) strain PCC 8005, denoted as P2 (straight trichomes) and P6 (helical trichomes), were subjected to chronic gamma radiation from spent nuclear fuel (SNF) rods at a dose rate of ca. 80 Gy.h-1 for one mass doubling period under continuous light with photoautotrophic metabolism fully active. Samples were taken for post-irradiation growth recovery and RNAseq transcriptional analysis at approximate time in-tervals of 15, 40, and 71.5 hrs corresponding to cumulative doses of ca. 1450, 3200, and 5700 Gy, respectively. Both morphotypes, which were previously reported to display different antioxidant capacities and differ at the genomic level in 168 SNPs, 48 indels and 4 large insertions (Yadav et al., 2019), recovered equally well from 1450 and 3200 Gy. However, while the P2 straight type recov-ered from 5700 Gy by regaining normal growth within 6 days, the P6 helical type took about 13 days to recover from this dose, indicating differences in their radiation tolerance and response. To investigate these differences, P2 and P6 cells exposed to the intermediate dose of gamma radiation (3200 Gy) were analyzed for differential gene expression by RNAseq analysis. A total of 1553 genes (887 and 666 of P2 and P6, respectively, with 352 genes in common) were selected based on a two-fold change in expression and a false discovery rate FDR smaller or equal to 0.05. About 85% of these 1553 genes encoded products of yet unknown function. Of the 229 remaining genes, 171 had a defined function while 58 genes were transcribed into non-coding RNA including 21 tRNAs (all downregulated). From PCC 8005-P2 and PCC 8005-P6 expression patterns it emerges that although the cellular routes used by the two sub strains to cope with ionizing radiation do overlap to a large extent, both strains displayed a distinct preference of priorities likely brought about by marginal differences in their genetic backgrounds. Small inoculants (1 mL) of irradiated and non-irradiated L. indica cultures were grown in 30 mL of fresh Zarrouk media in T-75 tissue flasks (Thermofisher Scientific). All cultures were grown in triplicates per exposed dose with their respective non-irradiated cultures under standard laboratory conditions. Recovery was followed at OD750 every alternate day for a period of 30 days. The proliferation curve was plotted as OD750 versus time using Graphpad Prism v7 (GraphPad Software, La Jolla, California, USA – https://www.graphpad.com/) Triplicates of a non-irradiated control per dose were kept at otherwise analogous conditions in the lab. The L. indica P2 and P6 culture samples were collected in time in-tervals at three prechosen time points T1 to T3 of exposure (~15, ~40, and ~71.5h) corresponding to approximate cumulative doses of respectively 1450, 3200, and 5700 Gy, with the actual doses for the individual samples determined by dosimetry using Harwell Amber-3042 radiation-sensitive polymethylmethacrylate dosimeters attached to the cul-ture tubes. Genes were considered as being differentially expressed if they abided to the selection criteria: -1 >= log2FC >= 1, with an FDR equal or below 0.05 for both options.

Project description:The impact of low-dose ionizing radiation (IR) on human brain has recently attracted attention due to increased use of IR for diagnostic purposes. The aim of this study was to investigate low-dose radiation response in hippocampus. Female C57Bl/6 mice were irradiated with 0 (control), 0.063, 0.125 or 0.5 Gy and quantitative label-free proteomic analysis of hippocampus was performed after 24 months. Key pathways were validated by immunoblotting. CREB signaling and CREB-associated pathways were the most affected ones at all doses. The two lower doses seemed to induce CREB pathway, whereas the exposure to 0.5 Gy deactivated CREB. Similarly, the lowest dose (0.063 Gy) was anti-inflammatory reducing the number of activated microglia (IBA1), whilst induction of activated microglia and reactive astroglia (GFAP) was found at 0.5 Gy suggesting increased inflammation and astrogliosis, respectively. Apoptotic markers BAX and cleaved CASP-3 and oxidative stress markers (carbonylation, NRF-2) were increased only at the highest dose. Since activated CREB pathway plays a central role in learning and memory, these data suggest neuroprotection at the lowest dose (0.063 Gy) but neurodegeneration at 0.5 Gy. These effects become significant only in old animals (24 m) and support the hypothesis of radiation-induced accelerated aging in the brain.

Project description:A set of changes is identified in the transcription profile associated with the long-term, but not the acute, response to radiation exposure. The study was performed in vivo using zebrafish. To study the long-term response, 24 hour post-fertilization embryos were exposed to 0.1 Gy (low dose) or 1.0 Gy (moderate dose) of whole-body gamma radiation and allowed to develop for 16 weeks. Liver mRNA profiles were then analyzed using the Affymetrix microarray platform, with validation by quantitative PCR. To be able to compare this to the acute response, 16-week old adults were exposed at the same doses and analyzed after 4 hours. We used 5 treatment groups: A=non-irradiated control, allowed to develop for 16 weeks; B=low-dose (0.1 Gy) irradiated, allowed to develop for 16 weeks; C=high-dose (1.0 Gy) irradiate, allowed to develop for 16 weeks; D=16 week old adults irradiated at low dose (0.1 Gy); E=16 week old adults irradiate at high dose (1.0 Gy)

Project description:One of the most likely risks astronauts on long duration space missions face is exposure to ionizing radiation associated with highly energetic and charged heavy (HZE) particles. Since access to medical expertise on such a mission is limited at best, early diagnosis and mitigation of such exposure is critical. In order to accurately determine the dosage within 1 hour post-exposure, dose-dependent “biomarkers” are needed. Therefore, we performed a dose-course transcriptional analysis for radiation exposure at 0, 0.3, 1.5, and 3.0 Gy with corresponding time point at 1 hour (hr) post-exposure using Affymetrix® GeneChip® Human Gene 1.0 ST v1 Array chips. The analysis of our data suggests a set of sensitive genetic biomarkers specific to each radiation level as well as generic radiation response biomarkers. Upregulated biomarkers can then be used within lab-on-a-chip (LOC) systems to detect exposure to ionizing radiation. A total of sixteen human samples representing radiation exposure at levels 0 Gy, 0.3 Gy, 1.5 Gy and 3.0 Gy at time point 1 hour (hr) post-exposure were constructed. Blood samples were extracted from four human volunteers, and were irradiated. Leukocytes were extracted, and gene expression was measured. Samples for all four volunteers were measured at 1 hr for all four dose levels, resulting in four replicates at each dose level. Thus, a total of 4 samples at each of the four radiation levels were sampled, yielding the total of 16 samples.

Project description:Radiation lung injury is characterized by early inflammation and late fibrosis. The causes underlying the chronic, progressive nature of radiation injury are poorly understood. Here, we report that the gene expression of irradiated lung tissue correlates with that observed in the lungs in aged animals. We demonstrate that NOX4 expression and superoxide elaboration is increased in irradiated lungs and pneumocytes in a dose dependent fashion. We used microarrays to detail the global programme of gene expression and report that irradiated lung tissue correlates with that observed in the lungs in aged animals. Female C57Bl/Ncr mice, aged 10 weeks were treated with/ without radiation to the thorax with a X-RAD 320 x-ray irradiator at a dose rate of 2.61 Gy/minute. An age-matched cohort of mice received no IR while additional cohorts received 5 Gy in a single dose, 17.5 Gy in a single dose. RNA was extracted and hybridization done on Affymetrix Mouse430_2 microarrays.

Project description:Expression profiles in mouse liver exposed to long-term gamma-irradiation were examined to assess in vivo effects of low dose-rate radiation. Three groups of male C57BL/6J mice were exposed to whole body irradiation at dose-rates of 17-20 mGy/day, 0.86-1.0 mGy/day or 0.042-0.050 mGy/day for 401-485 days (cumulative doses were approximately 8 Gy, 0.4 Gy or 0.02 Gy, respectively). Expression profiles were produced for RNA isolated from irradiated individual animals and for pooled RNA from sham-irradiated 3 animals for control. The expression levels of 6 irradiated animals for each dose were compared individually with those of 2 pooled controls (3 irradiated samples to one pooled control in first and second experiments).

Project description:In this project, we aimed to examine the transcriptional changes that occur after irradiation of intestinal organoid-derived subcutaneous heterotopic tumors over a 7 day period post-radiation treatment. AKPT (villinCreER;Apcfl/fl;KrasG12D/+;Trp53fl/fl;TgfbrIfl/fl) intestinal organoids were cultured, then suspended in a 50:50 phosphate buffered-saline and Matrigel mixture and subcutaneously implanted into male C57BL/6 mice. Two weeks after implantation, mice were given either a single dose of 15 Gy radiation or 3 doses of 7 Gy radiation. Tumours were harvested 4 hours, 24 hours, 3 days, and 7 days after receiving the single dose of 15 Gy or the final dose of 7 Gy radiation, as well as from corresponding non-irradiated controls. RNA was extracted from the collected tumours and processed for RNA sequencing.

Project description:The cells harvested for microarray analysis were high-dose rate (HDR) irradiated, low-dose rate (LDR) irradiated or unirradiated T-47D cells. The HDR-irradiated cells were harvested 24h after a dose of 0.3 Gy at 35 Gy/h, a time where hyper-radiosensitivity (HRS) had returned. The HRS-deficient LDR-irradiated cells were harvested 2 months after a dose of 0.3 Gy at 0.3 Gy/h.

Project description:The cellular response to DNA damage is vital for maintaining genomic stability and preventing undue cell death or cancer formation. The DNA damage response (DDR), most robustly mobilized by double-strand breaks (DSBs), rapidly activates an extensive signaling network that affects numerous cellular systems, leading to cell survival or programmed cell death. A major component of the DDR is the widespread modulation of gene expression. We analyzed transcriptional responses to ionizing radiation (IR) in 5 human cell lines to elucidate the scope of this response and identify its gene targets. According to the mRNA expression profiles most of the responses were cell line-specific. Data analysis identified significant enrichment for p53 target genes and cell cycle-related pathways among groups of up-regulated and down-regulated genes, respectively. Expression profiles were measured using affymetrix chips in IR- irradiated G361 cells and their time-matched untreated controls. Time points recorded were 0, 3 and 6 hrs. IR dose: 5 Gy Expression profiles were measured using affymetrix chips in IR- irradiated HepG2 cells and their time-matched untreated controls. Time points recorded were 0, 3 and 6 hrs. IR dose: 5 Gy Expression profiles were measured using affymetrix chips in IR- irradiated TK6 cells and their time-matched untreated controls. Time points recorded were 0, 3 and 6 hrs. IR dose: 5 Gy Expression profiles were measured using affymetrix chips in IR- irradiated U2OS cells and their time-matched untreated controls. Time points recorded were 0, 3 and 6 hrs. IR dose: 5 Gy Expression profiles were measured using affymetrix chips in IR- irradiated BJ cells and their time-matched untreated controls. Time points recorded were 0, 3 and 6 hrs. IR dose: 5 Gy

Project description:CEA_SGF:E00006# This set of experiments was performed in order to identify radiation responsive genes. For this, differentiated cultures derived from a single donor were irradiated at either 1 cGy, 2 Gy or sham-irradiated at T0 and total RNA extracts were prepared at 6 time points post-irradiation. Irradiated samples for each dose were hybridized seperately with sham-irradiated samples at the same time point. Each time point for each individual dose was assessed with two independent dye-swap hybridizations. Keywords: time-course