Project description:Transcriptional profiling of rat thyroid cells comparing control untreated thyroid cells with 131I irradiated thyroid cells. Goal was to invesigate radiation induced gene expression profiles

Project description:Introduction Iodine-131 (131I) is frequently used in nuclear medicine. Unbound or released 131I accumulate in the thyroid gland and may be detrimental to normal thyroid function. The aim of the present study was to identify biomarkers for 131I exposure in rat thyroid tissue and to assess the effect on thyroid function. Methods Thirty six male Sprague Dawley rats were i.v. injected with 150 µl saline solution containing 9.0, 88, 170, 260, 340, 760, 1300, or 4700 kBq (group A-H) 131I, or mock-treated with 150 µl saline solution only, and killed at 24 h after injection. Total RNA was extracted from individual thyroid tissue samples thyroids and mRNA levels were determined with the Agilent microarray platform. Results Estimated absorbed doses in treatment groups A-H was 0.0058, 0.057, 0.11, 0.17, 0.22, 0.5 Gy, 0.8 Gy, and 3 Gy. Totally, 429 transcripts were identified with a fold change fold change ≥ 1.5 and adjusted p-value ≤ 0.01. A trend with downregulation of thyroid hormone biosynthesis associated genes (e.g. thyroglobulin, thyroid peroxidase, the sodium-iodine symporter) was identified, but only statistically significant after 0.0058 and 0.22 Gy. Three transcripts coding for isoform 1 of the DBP protein showed a pattern with monotonous decrease in downregulation with absorbed dose between 0.0058-0.22 Gy. Changes in Dbp expression were not statistically significant between 0.5-3 Gy. However, a trend with downregulation at 0.5 and 0.8 Gy and upregulation and 3 Gy was identified. Previously, 131I (0.85-17 Gy) and 211At (0.023-32 Gy) exposure resulted in upregulation of Dbp in mice thyroid tissue 24 h after administrations. Additionally, a monotonous decrease in Dbp downregulation has been identified of in mouse kidney tissue at 8 and 12 months after 177Lu-octreotate administrations. Conclusion Conclusively, the Dbp gene is a promising candidate biomarker gene for exposure to 131I and possibly other internal radiation emitters. Further studies should be performed to establish how Dbp expression vary with dose-rate, absorbed dose, time after administration, different radiation qualities, and the function of Dbp.

Project description:Background. Radioiodide 131I is commonly used to treat thyroid cancer and hyperthyroidism, and 131I releases during nuclear accidents have resulted in increased incidence of thyroid cancer in children. To develop a better understanding of underlying cellular mechanisms behind 131I exposure and identify potential biomarkers, the aim of this work was to study the long-term dose-related effects of 131I exposure in thyroid tissue and plasma in young rats. Materials and methods. Male Sprague Dawley rats (5-week-old) were i.v. injected with 0.5, 5.0, 50 or 500 kBq 131I (Dthyroid ca 1–1000 mGy), and killed after nine months at which time the thyroid and blood samples were collected. Gene expression microarray analysis (thyroid samples) and LC-MS/MS analysis (thyroid and plasma samples) were performed to assess differential gene and protein expression patterns in treated and corresponding untreated control samples. Bioinformatics analyses were performed using the DAVID functional annotation tool and Ingenuity Pathway Analysis (IPA). Results. Nine 131I exposure-related biomarkers (Afp and RT1-Bb,ARF3, DLD, IKBKB, NONO, RAB6A, RPN2, and SLC25A5) were identified in thyroid tissue. Four dose-related biomarker candidates (APRT, LDHA) and (TGM3 and DSG4) were identified in thyroid and plasma, respectively. Candidate biomarkers for thyroid function were the upstream regulator PPARG and the proteins ACADL and SORBS2 (all activities), TPO and TG (low activities)). 131I exposure was shown to have a profound effect on metabolism, the immune system, apoptosis and cell death. Furthermore, several signalling pathways essential for normal cellular function (actin cytoskeleton signalling, HGF signalling, NRF2-mediated oxidative stress, integrin signalling, calcium signalling) were also significantly regulated. Conclusion. Exposure-related and dose-related effects on gene and protein expression were observed, thereby identifying several candidate genes that could be used as potential biomarkers for exposure, absorbed dose and thyroid function.

Project description:Introduction Iodine-131 (131I) is frequently used in nuclear medicine. Unbound or released 131I accumulate in the thyroid gland and may be detrimental to normal thyroid function. The aim of the present study was to identify biomarkers for 131I exposure in rat thyroid tissue and to assess the effect on thyroid function. Methods Thirty six male Sprague Dawley rats were i.v. injected with 150 µl saline solution containing 9.0, 88, 170, 260, 340, 760, 1300, or 4700 kBq (group A-H) 131I, or mock-treated with 150 µl saline solution only, and killed at 24 h after injection. Total RNA was extracted from individual thyroid tissue samples thyroids and mRNA levels were determined with the Agilent microarray platform. Results Estimated absorbed doses in treatment groups A-H was 0.0058, 0.057, 0.11, 0.17, 0.22, 0.5 Gy, 0.8 Gy, and 3 Gy. Totally, 429 transcripts were identified with a fold change fold change ≥ 1.5 and adjusted p-value ≤ 0.01. A trend with downregulation of thyroid hormone biosynthesis associated genes (e.g. thyroglobulin, thyroid peroxidase, the sodium-iodine symporter) was identified, but only statistically significant after 0.0058 and 0.22 Gy. Three transcripts coding for isoform 1 of the DBP protein showed a pattern with monotonous decrease in downregulation with absorbed dose between 0.0058-0.22 Gy. Changes in Dbp expression were not statistically significant between 0.5-3 Gy. However, a trend with downregulation at 0.5 and 0.8 Gy and upregulation and 3 Gy was identified. Previously, 131I (0.85-17 Gy) and 211At (0.023-32 Gy) exposure resulted in upregulation of Dbp in mice thyroid tissue 24 h after administrations. Additionally, a monotonous decrease in Dbp downregulation has been identified of in mouse kidney tissue at 8 and 12 months after 177Lu-octreotate administrations. Conclusion Conclusively, the Dbp gene is a promising candidate biomarker gene for exposure to 131I and possibly other internal radiation emitters. Further studies should be performed to establish how Dbp expression vary with dose-rate, absorbed dose, time after administration, different radiation qualities, and the function of Dbp. Total RNA was isolated from fresh-frozen individual thyroid tissue samples (Sprague Dawley rats). Each sample was run once. Four rats received the same treatment. Control samples (from non-irradiated rats) are included.

Project description:Transcriptomic profiling of normal mouse thyroid tissue following 131At irradiation In the present investigation, microarray analysis was used to monitor transcriptional activity in thyroids in mice 24 h after 131I exposure. The aims of this study were to 1) assess the transcriptional patterns associated with 131I exposure in normal mouse thyroid tissue and 2) identify novel biomarkers for 131I exposure. Methods: Adult BALB/c nude mice were i.v. injected with 13, 130 or 260 kBq of 131I and killed 24h after injection. The corresponding absorbed doses delivered to the thyroid gland were 0.85, 8.5, or 17 Gy. Mock-treated mice were used as controls. Total RNA was extracted from thyroids and processed using MouseRef-8 Whole-Genome Expression BeadChips (Illumina). Nexus Expression 2.0 software were used for analysis. Results: In total, 497, 546, and 90 transcripts were regulated in the thyroid after 0.85, 8.5, and 17 Gy, respectively. These were involved in several biological functions, e.g. oxygen access, inflammation and immune response, and apoptosis/anti-apoptosis. Approximately 50% of the involved transcripts at each absorbed dose level were dose-specific and 18 transcripts were commonly detected at all absorbed dose levels. The Agpat9, Plau, Prf1, and S100a8 gene expression displayed a monotone decrease in regulation with absorbed dose, and may function as dose-related biomarkers for 131I exposure. Conclusion: Distinct and substantial differences in gene expression and affected biological functions were detected at the different absorbed dose levels. The transcriptional profiles were specific for the different absorbed dose levels. We propose that the Agpat9, Plau, Prf1, and S100a8 genes are novel potential absorbed dose-related biomarkers for 131I exposure. Total RNA was isolated from fresh-frozen tissue samples (Normal Balb/c mouse thyroids)

Project description:The physiological process of iodine uptake in the thyroid is used for 131I treatment of thyroid diseases. 131I is also one of the most commonly released radionuclides after nuclear accidents. After the Chernobyl accident, the incidence rate of papillary thyroid carcinoma increased in children, possibly due to higher absorbed doses and radiosensitivity compared to adults.

Project description:Transcriptomic profiling of normal mouse thyroid tissue following 131At irradiation In the present investigation, microarray analysis was used to monitor transcriptional activity in thyroids in mice 24 h after 131I exposure. The aims of this study were to 1) assess the transcriptional patterns associated with 131I exposure in normal mouse thyroid tissue and 2) identify novel biomarkers for 131I exposure. Methods: Adult BALB/c nude mice were i.v. injected with 13, 130 or 260 kBq of 131I and killed 24h after injection. The corresponding absorbed doses delivered to the thyroid gland were 0.85, 8.5, or 17 Gy. Mock-treated mice were used as controls. Total RNA was extracted from thyroids and processed using MouseRef-8 Whole-Genome Expression BeadChips (Illumina). Nexus Expression 2.0 software were used for analysis. Results: In total, 497, 546, and 90 transcripts were regulated in the thyroid after 0.85, 8.5, and 17 Gy, respectively. These were involved in several biological functions, e.g. oxygen access, inflammation and immune response, and apoptosis/anti-apoptosis. Approximately 50% of the involved transcripts at each absorbed dose level were dose-specific and 18 transcripts were commonly detected at all absorbed dose levels. The Agpat9, Plau, Prf1, and S100a8 gene expression displayed a monotone decrease in regulation with absorbed dose, and may function as dose-related biomarkers for 131I exposure. Conclusion: Distinct and substantial differences in gene expression and affected biological functions were detected at the different absorbed dose levels. The transcriptional profiles were specific for the different absorbed dose levels. We propose that the Agpat9, Plau, Prf1, and S100a8 genes are novel potential absorbed dose-related biomarkers for 131I exposure.

Project description:Fipronil is a widely-used broad-spectrum phenylpyrazole insecticide. It has been shown that fipronil increases the hepatic metabolism of thyroid hormone in the rat, which may induce compensatory mechanisms at the level of the thyroid gland itself. Here, we studied the effect of fipronil on the transcriptome of the thyroid gland in the rat. Adult (2- to 3-month-old) female Wistar rats were treated per os with fipronil (3 mg/kg) or the vehicle alone for 14 days. The transcriptome of their thyroid gland was analyzed using Agilent 4x44K microarrays.

Project description:Fipronil is a widely-used broad-spectrum phenylpyrazole insecticide. It has been shown that fipronil increases the hepatic metabolism of thyroid hormone in the rat, which may induce compensatory mechanisms at the level of the thyroid gland itself. Here, we studied the effect of fipronil on the transcriptome of the thyroid gland in the rat. Adult (2- to 3-month-old) female Wistar rats were treated per os with fipronil (3 mg/kg) or the vehicle alone for 14 days. The transcriptome of their thyroid gland was analyzed using Agilent 4x44K microarrays. Thyroid gland gene expression was measured from female Wistar rats treated with vehicle (n = 10) or fipronil (n = 10) using a dye switch design.

Project description:Generation of thyroid follicular cell organoids from adult thyroid tissue