Quantitative mRNA expression analysis of selected genes in patients with early-stage hypothyroidism induced by treatment with iodine-131

Predictive factors influencing hypothyroidism following the radioactive iodine treatment of Graves' disease in different periods

In China, due to the risks of hypothyroidism after radioiodine treatment, radioiodine is not commonly used as a first-line treatment. In this study, factors influencing the development of hypothyroidism after 131I therapy for Graves' hyperthyroidism were evaluated. This was a retrospective study with a 12-month follow-up. Retrospectively, we investigated 1,264 patients with diagnosed Graves' disease who received 131I therapy using the Marinelli-Quimby formula. The first three months after 131I therapy, hypothyroidism risk was higher among patients with lighter thyroid weight, higher levels of thyroglobulin antibody (TGAb), and shorter durations of Antithyroid drug (ATD) treatment before 131I therapy (P < 0.05). After 6 months, patients with lighter thyroid weight, shorter ATD treatment duration before 131I therapy, and higher iodine intake showed an increased risk of hypothyroidism. (P < 0.05). After one year, lower 24-h iodine uptake was the only risk factor for hypothyroidism (P < 0.05). Our results show that  131I is an effective therapy for GD. Even if over time, the occurrence of hypothyroidism may ultimately depend on the patients' radiosensitivity to 131I before treatment. But in the first 3 to 6 months or even one year, we can still take measures to effectively improve the quality of life of patients.

AT, Raavi V, Easwaramoorthy V, Murugaiyan P, Perumal V. Enhanced γ-H2AX Foci Frequency and Altered Gene Expression in Participants Exposed to Ionizing Radiation During I-131 Nuclear Medicine Procedures

Purpose

Ionizing radiation-based technologies are extensively used in the diagnosis and treatment of diseases. While utilizing the technologies, exposure to a certain amount of radiation is unavoidable. Data can be obtained from participants who received radiation during medical imaging and therapeutic purposes to predict the effects of low-dose radiation.

Methods

To understand the effects of low-dose radiation, participants (n = 22) who received radioactive I-131 for scan/therapy were used as a model in this study. Blood samples were drawn pre- and post-administration of I-131. Biological effects were measured using markers of DNA damage (γ-H2AX, micronucleus (MN), and chromosomal aberrations (CA)) and response to damage through gene expression changes (ATM, CDKN1A, DDB2, FDXR, and PCNA) in blood samples.

Results

Mean frequency of γ-H2AX foci in pre-samples was 0.28 ± 0.16, and post-samples were 1.03 ± 0.60. γ-H2AX foci frequency obtained from post-samples showed significant (p < 0.0001) and a heterogeneous increase in all the participants (received I-131 for scan/therapy) when compared to pre-samples. A significant increase (p < 0.0001) in MN and CA frequency was also observed in participants who received the I-131 therapy. Gene expression analysis indicates that all genes (ATM, CDKN1A, DDB2, FDXR, and PCNA) were altered in post-samples, although with varying degrees, suggesting that the cellular responses to DNA damage, such as damage repair, cell cycle regulation to aid in repair and apoptosis are increased, which priority is given to repair, followed by apoptosis.

Conclusion

The results of this study indicate that the participants who received I-131 (low doses of β- and γ-radiation) can produce substantial biological effects.

Possible molecular exploration of herbal pair Haizao-Kunbu in the treatment of Graves' disease by network pharmacology, molecular docking, and molecular dynamic analysis

Objective

To promote the development and therapeutic application of new medications, it is crucial to conduct a thorough investigation into the mechanism by which the traditional Chinese herb pair of Haizao-Kunbu (HK) treats Graves' disease (GD).

Materials and methods

Chemical ingredients of HK, putative target genes, and GD-associated genes were retrieved from online public databases. Using Cytoscape 3.9.1, a compound-gene target network was established to explore the association between prosperous ingredients and targets. STRING, Gene Ontology, and Kyoto Encyclopedia of Genes and Genomes pathway analyses visualized core targets and disease pathways. Additionally, we conducted a refined analysis of the binding interactions between active ingredients and their respective targets. To visualize these findings, we employed precise molecular docking techniques. Furthermore, we carried out molecular dynamics simulations to gain insights into the formation of more tightly bound complexes.

Results

We found that there were nine key active ingredients in HK, which mainly acted on 21 targets. These targets primarily regulated several biological processes such as cell population proliferation, protein phosphorylation, and regulation of kinase activity, and acted on PI3K-AKT and MAPK pathways to treat GD. Analysis of the molecular interaction simulation under computer technology revealed that the key targets exhibited strong binding activity to active ingredients, and Fucosterol-AKT1 and Isofucosterol-AKT1 complexes were highly stable in humans.

Conclusion

This study demonstrates that HK exerts therapeutic effects on GD in a multi-component, multi-target, and multi-pathway manner by regulating cell proliferation, differentiation, inflammation, and immunomodulatory-related targets. This study provides a theoretical foundation for further investigation into GD.

Analysis of the p53 pathway in peripheral blood of retinoblastoma patients; potential biomarkers

Loss of retinoblastoma (RB) function in the cone cells during retina development is necessary but not sufficient for retinoblastoma development. It has been reported that in the absence of RB activity, a retinoma is generated, and the onset of retina cancer occurs until the p53 pathway is altered. Unlike other types of cancer, in retinoblastoma the p53 tumour suppressor is mostly wild type, although its two primary regulators, MDMX and MDM2, are commonly dysregulated. A mutated RB form is inherited in around 35% of the cases, but normally two, somatic mutations are needed to alter the RB function. Here we investigated the mRNA levels of RB, p53, MDMX and MDM2 in peripheral blood samples of retinoblastoma patients to monitor the pathway status of p53 in somatic cells. We sought to investigate the involvement of these genes in the development of retina cancer, with the aim of identifying biomarkers for early diagnosis of this disease.

Radiosensitivity-related postirradiation hypothyroidism in Graves' disease patients

PURPOSE

The cumulative incidence of hypothyroidism, in ¹³¹I-treated patients with hyperthyroidism caused by Graves' disease, has been gradually increasing each year. Meanwhile, the role of the genes that control radiation sensitivity (GCRS) involved in ¹³¹I therapy is yet to be defined. The main purpose of the present study is to find GCRS that could indicate hypothyroidism in Graves' disease patients treated with ¹³¹I.

METHODS

Thyroid tissue was collected from 59 patients who were diagnosed with Graves' disease. GCRS (including Bcl-2, NF-κB, Survivin, Ku-70, Tob1, EGFR, Egr-1, TP-53, BRCA-1, and ATM) mRNA levels were analyzed with qRT-PCR before radioiodine therapy. Patients were followed up and then grouped by end-point outcomes. The association of the variation of target genes with susceptibility to hypothyroidism was analyzed.

RESULTS

Altogether 44 patients were enrolled, including 11 men and 33 women with an average age of 44.79 ± 12.94 years. Based on their clinical outcomes after at least 2-year follow-up, 59% (26/44) patients were evaluated as hypothyroid, while the remaining 41% (18/44) patients were non-hypothyroid, including 18% (8/44) with persistent hyperthyroidism. The hypothyroid group showed significantly lower Ku-70 mRNA expression levels than the non-hypothyroid group (p = 0.022), whereas no significance was detected regarding other target genes (p > 0.1). Multivariate analysis showed that Ku-70 was significantly correlated with hypothyroidism after ¹³¹I treatment (p = 0.033).

CONCLUSIONS

The opposing changes in mRNA expression levels of Ku-70 in patients with hypothyroidism indicate its potential as a prognostic marker for hypothyroidism induced by ¹³¹I treatment.

Prognostic factor analysis in 325 patients with Graves' disease treated with radioiodine therapy

Introduction

¹³¹I therapy is a choice for Graves’ hyperthyroidism. Several factors that affect the success of ¹³¹I treatment in Graves’ disease (GD) patients have been put forward. The aim of this retrospective study was to evaluate the factors influencing the success of ¹³¹I therapy and the occurrence of hypothyroidism after ¹³¹I therapy.

Patients and methods

We reviewed 325 GD patients, who were well documented out of 779 cases, treated with ¹³¹I in the First Affiliated Hospital of Xi’an Jiaotong University between 2010 and 2016. We collected the potential influencing factors, including demographic data (age, sex, family history), iodine intake state, antithyroid drugs (ATD) taking, thyroid texture, complications of hyperthyroidism, physical and laboratory examinations [thyroid weight, effective ¹³¹I half-life time (T_eff), 24-h iodine uptake rate, tri-iodothyronine, thyroxine, free tri-iodothyronine (FT3), free thyroxine, thyroid-stimulating hormone, thyroglobulin antibody, thyroid microsome antibody, thyrotropin receptor antibody], and final administered dosages according to Quimby formula. The correlations between the prognosis of GD patients and these factors were analyzed by logistic regression analysis.

Results

Out of 325 patients, 247 (76.00%) were treated successfully with radioiodine. GD patients who were cured by ¹³¹I therapy were more likely to have smaller thyroid [odds ratio (OR)=0.988, 95% confidence interval (CI)=0.980–0.996, P=0.002], lower FT4 levels (OR=0.993, 95% CI=0.988–0.997, P=0.002), and shorter time of ATD withdrawal before ¹³¹I treatment (OR=0.985, 95% CI=0.975–0.996, P=0.002). Hypothyroidism occurred in 132 (41.00%) out of 325 patients. There was an increased risk of early hypothyroidism in patients with lower 24-h iodine uptake (OR=0.964, 95% CI=0.941–0.988, P=0.004), and treated with a lower total dose of iodine (OR=0.892, 95% CI=0.824–0.965, P=0.005) and a higher iodine dose per garm of thyroid tissue (OR=5.414E+14, 95% CI=45.495–6.444E+27, P=0.027).

Conclusion

Our results showed that ¹³¹I treatment was more successful in patients with lower weight of the thyroid, lower free thyroxine level, and shorter ATD taking period. Furthermore, early hypothyroidism after radioiodine treatment was more likely to occur in patients with lower 24-h iodine uptake, lower total dose of iodine, and higher iodine dose per garm of thyroid tissue.