Your search keyword '"Selenium deficiency"' showing total 5,373 results

1. Selenium deficiency exacerbates ROS/ER stress mediated pyroptosis and ferroptosis induced by bisphenol A in chickens thymus.

Author

Wang, Kun, Shi, Xu, Lin, Hongjin, Xu, Tong, and Xu, Shiwen

Subjects

*BROILER chickens, *ENDOPLASMIC reticulum, *PYROPTOSIS, *IRON ions, *CHICKENS

Abstract

Bisphenol A (BPA) is an industrial pollutant that can cause immune impairment. Selenium acts as an antioxidant, as selenium deficiency often accompanies oxidative stress, resulting in organ damage. This study is the first to demonstrate that BPA and/or selenium deficiency induce pyroptosis and ferroptosis-mediated thymic injury in chicken and chicken lymphoma cell (MDCC-MSB-1) via oxidative stress-induced endoplasmic reticulum (ER) stress. We established a broiler chicken model of BPA and/or selenium deficiency exposure and collected thymus samples as research subjects after 42 days. The results demonstrated that BPA or selenium deficiency led to a decrease in antioxidant enzyme activities (T-AOC, CAT, and GSH-Px), accumulation of peroxides (H 2 O 2 and MDA), significant upregulation of ER stress-related markers (GRP78, IER 1, PERK, EIF-2α, ATF4, and CHOP), a significant increase in iron ion levels, significant upregulation of pyroptosis-related gene (NLRP3, ASC, Caspase1, GSDMD, IL-18 and IL-1β), significantly increase ferroptosis-related genes (TFRC, COX2) and downregulate GPX4, HO-1, FTH, NADPH. In vitro experiments conducted in MDCC-MSB-1 cells confirmed the results, demonstrating that the addition of antioxidant (NAC), ER stress inhibitor (TUDCA) and pyroptosis inhibitor (Vx765) alleviated oxidative stress, endoplasmic reticulum stress, pyroptosis, and ferroptosis. Overall, this study concludes that the combined effects of oxidative stress and ER stress mediate pyroptosis and ferroptosis in chicken thymus induced by BPA exposure and selenium deficiency. [ABSTRACT FROM AUTHOR]

Published

2025

2. Selenium levels and their association with thyroid autoimmunity and severe preeclampsia in pregnancy: Insights from a prospective ideal breast milk cohort study

Author

Chae Won Chung, Kyungsik Kim, Sue K Park, Dal Lae Ju, Young Joo Park, Choong Ho Shin, Jong Kwan Jun, June-Key Chung, Yoon Ju Song, Young Ah Lee, Gi Jeong Cheon, and Sun Wook Cho

Subjects

preeclampsia, selenium deficiency, selenium supplement, suboptimal, thyroid autoantibody, thyroid autoimmunity, twin, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Objective: This study aimed to assess selenium status in South Korean pregnant women and its impact on maternal thyroid function and pregnancy outcomes. Methods: ‘Ideal Breast Milk (IBM) Cohort Study’ included 367 pregnant women out of 442 participants and categorized into three groups based on plasma selenium levels: deficient (< 70 μg/L), suboptimal (70–99 μg/L), and optimal (≥ 100 μg/L). During the second or third trimester, various blood parameters, including selenium, thyroid-stimulating hormone, free T4, free T3, and anti-thyroid peroxidase antibody levels, were measured. Thyroid parenchymal echogenicity was assessed as another surrogate marker for thyroid autoimmunity using ultrasonography. Results: The median plasma selenium was 98.8 (range: 46.7–206.4) μg/L, and 30 individuals (8%) were categorized as deficient, while 164 (45%) were classified in the suboptimal group. Selenium deficiency was associated with markers of autoimmune thyroiditis, including positive anti-thyroid peroxidase antibody results (13.3 (deficient) vs 4.6 (optimal) %, P = 0.031) and thyroid parenchymal heterogeneity on ultrasound (33.3 (deficient) vs 14.6 (suboptimal) vs 17.3 (optimal) %, P = 0.042), independently of gestational age. The incidence of severe preeclampsia was higher in the group not taking selenium supplements, particularly among those with twin pregnancies, compared to the group taking selenium supplements (0 (selenium supplement) vs 9.0 (no supplement) %, P = 0.015). Conclusion: Pregnant women experience mild selenium deficiency, which can lead to significant health issues including maternal thyroid autoimmunity and obstetrical complications during pregnancy. Guidelines for appropriate selenium intake according to the stage of pregnancy and the number of fetuses are needed.

Published

2024

3. Selenium Deficiency Can Promote the Expression of VEGF and Inflammatory Factors in Cartilage Differentiation and Mediates Cartilage Injury.

Author

Meng, Xiang, Meng, Xiumei, He, Zeju, Yuan, Ye, Fan, Yong, Yin, Li, Tong, Yu, Hong, Zheping, Zhu, Senbo, Zhang, Qiong, and Bi, Qing

Abstract

Selenium plays a crucial role as a micronutrient, primarily exerting its biological functions through selenoproteins. It has been established that selenium deficiency adversely impacts cartilage development, leading to alterations in chondrocyte function. In regions with low selenium intake, endemic osteochondrosis has been documented, characterized by compromised growth plate and articular cartilage formation. Vascular endothelial growth factor (VEGF) stands out as a pivotal angiogenic factor, with elevated levels contributing significantly to vascular invasion into chondrocytes. This VEGF-mediated invasion serves as a key signal, prompting morphological changes in the growth plate and initiating cartilage remodeling. In animal models, the selenium deficiency group exhibited heightened levels of the cartilage damage marker matrix metalloproteinases 13 (MMP13). This resulted in articular cartilage degeneration, accompanied by a substantial increase in VEGF expression within the growth plate and articular cartilage, as compared to the normal group. In a chondrogenic progenitor cell (CPC) differentiation model, insufficient selenium induced chondrocyte damage and upregulated inflammatory factors such as inducible NO synthase (iNOS) and cyclooxygenase-2 (COX2). The selenium-deficient groups showed elevated expressions of VEGF, VEGFR2, MMP13, Collagen X, and Angiopoietin 1, accelerating the degradation of the extracellular matrix (ECM), which further promoted the development of cartilage-related diseases. Taken together, these findings provide novel insights for a better understanding of the role of low selenium in cartilage degeneration and angiogenesis. They shed light on the intricate influence of low selenium levels on the development of articular cartilage, emphasizing the interconnected pathways and processes involved. [ABSTRACT FROM AUTHOR]

Published

2024

4. Selenium health impacts and Sub-Saharan regional nutritional challenges: Review

Author

Loti Kasezga Botha, Sydney Namaumbo, Noel Jabesi Kapito, Patrick Ndovie, Deborah Charles Tsukuluza, Fatema Jagot, and Angstone Thembachako Mlangeni

Subjects

Selenium, Immune function, Dietary intake, Selenium deficiency, Cancer prevention, Thyroid health, Chemistry, QD1-999

Abstract

Selenium is an important micronutrient that plays key functions in antioxidant defense, immune function, and thyroid health. However, its benefits and risks are closely linked to selenium methylation, a process that significantly influences its biological activity and potential toxicity. This review critically analyse the role of selenium methylation in modulating selenium’s effects on health, highlighting its impact on both protective and adverse outcomes. it also discusses the current understanding of selenium’s essential functions and toxicity risks, emphasizing the complexities of Se methylation. The review addresses notable research gaps and controversies, including inconsistent findings on selenium’s cancer-preventive properties, the diverse biological activities of different selenium species, and the challenges in determining optimal selenium intake levels. By synthesizing existing knowledge and identifying key areas for further investigation, this review aims to advance readers’ understanding of selenium’s multifaceted roles that guide future research and public health strategies.

Published

2024

5. The Impact of Selenium Deficiency and T-2 Toxin on Zip6 Expression in Kashin-Beck Disease

Author

Wu, Yifan, Gong, Yi, Liu, Lian, Bai, Lulu, Zhang, Yu, Li, Shujin, Wang, Chaowei, Yuan, Yuequan, Lv, Xi, Qin, Yirong, Wang, Hui, Liu, Yanli, Chen, Feihong, Chen, Sijie, Zhang, Feiyu, Guo, Xiong, Wang, Xi, and Ning, Yujie

Published

2024

6. Genome-Wide Admixture and Association Study of Serum Selenium Deficiency to Identify Genetic Variants Indirectly Linked to Selenium Regulation in Brazilian Adults.

Author

Moriguchi Watanabe, Ligia, Sousa, Lisete, Couto, Francisco M., Noronha, Natália Yumi, de Souza Pinhel, Marcela Augusta, da Silva Carvalho, Gleyson Francisco, da Silva Rodrigues, Guilherme, Bueno Júnior, Carlos Roberto, Kulikowski, Leslie Domenici, Barbosa Júnior, Fernando, and Nonino, Carla Barbosa

Abstract

Blood selenium (Se) concentrations differ substantially by population and could be influenced by genetic variants, increasing Se deficiency-related diseases. We conducted a genome-wide association study (GWAS) to identify single nucleotide polymorphisms (SNPs) associated with serum Se deficiency in 382 adults with admixed ancestry. Genotyping arrays were combined to yield 90,937 SNPs. R packages were applied to quality control and imputation. We also performed the ancestral proportion analysis. The Search Tool for the Retrieval of Interacting Genes was used to interrogate known protein–protein interaction networks (PPIs). Our ancestral proportion analysis estimated 71% of the genome was from Caucasians, 22% was from Africans, and 8% was from East Asians. We identified the SNP rs1561573 in the TraB domain containing 2B (TRABD2B), rs425664 in MAF bZIP transcription factor (MAF), rs10444656 in spermatogenesis-associated 13 (SPATA13), and rs6592284 in heat shock protein nuclear import factor (HIKESHI) genes. The PPI analysis showed functional associations of Se deficiency, thyroid hormone metabolism, NRF2-ARE and the Wnt pathway, and heat stress. Our findings show evidence of a genetic association between Se deficiency and metabolic pathways indirectly linked to Se regulation, reinforcing the complex relationship between Se intake and the endogenous factors affecting the Se requirements for optimal health. [ABSTRACT FROM AUTHOR]

Published

2024

7. Bisphenol A Regulates the TNFR1 Pathway and Excessive ROS Mediated by miR-26a-5p/ADAM17 Axis to Aggravate Selenium Deficiency-Induced Necroptosis in Broiler Veins.

Author

Fan, Xue, Wang, Yixuan, Zhang, Jintao, Lin, Hongjin, Bai, Zhikun, and Li, Shu

Abstract

Selenium (Se) deficiency can affect the expression of microRNA (miRNA) and induce necroptosis, apoptosis, etc., resulting in damage to various tissues and organs. Bisphenol A (BPA) exposure can cause adverse consequences such as oxidative stress, endothelial dysfunction, and atherosclerosis. The toxic effects of combined treatment with Se-deficiency and BPA exposure may have a synergistic effect. We replicated the BPA exposure and Se-deficiency model in broiler to investigate whether the combined treatment of Se-deficiency and BPA exposure induced necroptosis and inflammation of chicken vascular tissue via the miR-26A-5p/ADAM17 axis. We found that Se deficiency and BPA exposure significantly inhibited the expression of miR-26a-5p and increased the expression of ADAM17, thereby increasing reactive oxygen species (ROS) production. Subsequently, we discovered that the tumor necrosis factor receptor (TNFR1), which was highly expressed, activated the necroptosis pathway through receptor-interacting protein kinase 1 (RIPK1), receptor-interacting protein kinase 3 (RIPK3), and mixed-lineage kinase domain-like (MLKL), and regulated the heat shock proteins-related genes expressions and inflammation-related genes expressions after exposure to BPA and selenium deficiency. In vitro, we found that miR-26a-5p knockdown and increased ADAM17 can induce necroptosis by activating the TNFR1 pathway. Similarly, both N-Acetyl-L-cysteine (NAC), Necrostatin-1 (Nec-1), and miR-26a-5p mimic prevented necroptosis and inflammation caused by BPA exposure and Se deficiency. These results suggest that BPA exposure activates the miR-26a-5p/ADAM17 axis and exacerbates Se deficient-induced necroptosis and inflammation through the TNFR1 pathway and excess ROS. This study lays a data foundation for future ecological and health risk assessments of nutrient deficiencies and environmental toxic pollution. [ABSTRACT FROM AUTHOR]

Published

2024

8. Selenium deficiency induces irritable bowel syndrome: Analysis of UK Biobank data and experimental studies in mice

Author

Zhixing He, Huinan Chen, Ying Chen, Xiaohui Sun, Fuhai Qiu, Yiwu Qiu, Chengping Wen, Yingying Mao, and Ding Ye

Subjects

Irritable bowel syndrome, Selenium deficiency, Gut microbiota, Colon transcriptome, Colon fecal metabolomics, UK Biobank, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Irritable bowel syndrome (IBS) patients exhibit significantly lower levels of serum selenium (Se) compared to healthy controls. This study integrates a prospective cohort analysis and animal experiments to investigate Se deficiency as a potential risk factor for IBS. Using data from the UK Biobank, a longitudinal analysis was conducted to explore the associations between dietary Se intake and the risk of incident IBS. In animal study, C57BL/6 mice were fed diets with normal (0.2 ppm) or low (0.02 ppm) Se levels to assess the impacts of Se deficiency on IBS symptoms. Furthermore, we performed 16 S rRNA sequencing, untargeted colonic fecal metabolomics analysis, and colon transcriptome profiling to uncover the regulatory mechanisms underlying Se deficiency-induced IBS. The analysis of UK Biobank data revealed a significant correlation between low dietary Se levels and an increased incidence of IBS. In the experimental study, a low Se diet induced IBS symptoms, evidenced by elevated abdominal withdrawal reflex scores, colon inflammation, and severe pathological damage to the colon. Additionally, the low Se diet caused disturbances in gut microbiota, characterized by an increase in Faecalibaculum and Helicobacter, and a decrease in Bifidobacterium and Akkermansia. Combined colonic fecal metabolomics and colon transcriptome analysis indicated that Se deficiency might trigger IBS through disruptions in pathways related to ''bile excretion'', ''steroid hormone biosynthesis'', ''arachidonic acid metabolism'', and ''drug metabolism-cytochrome P450''. These findings underscore the significant adverse effects of Se deficiency on IBS and suggest that Se supplementation should be considered for IBS patients.

Published

2024

9. Soil respiration induces co-emission of greenhouse gases and methylated selenium from cold-region Mollisols: Significance for selenium deficiency

Author

Kunfu Pi, Philippe Van Cappellen, Hongyan Li, Yiqun Gan, Lei Tong, Xinlin Zhong, and Yanxin Wang

Subjects

Selenium methylation, Mollisol, Soil respiration, Land use change, Agroecosystems, Selenium deficiency, Environmental sciences, GE1-350

Abstract

Mollisols rich in natural organic matter are a significant sink of carbon (C) and selenium (Se). Climate warming and agricultural expansion to the cold Mollisol regions may enhance soil respiration and biogeochemical cycles, posing a growing risk of soil C and Se loss. Through field-mimicking incubation experiments with uncultivated and cultivated soils from the Mollisol regions of northeastern China, this research shows that soil respiration remained significant even during cold seasons and caused co-emission of greenhouse gases (CO2 and CH4) and methylated Se. Such stimulus effects were generally stronger in the cultivated soils, with maximum emission rates of 7.45 g/m2/d C and 1.42 μg/m2/d Se. For all soil types, the greatest co-emission of CO2 and dimethyl selenide occurred at 25 % soil moisture, whereas measurable CH4 emission was observed at 40 % soil moisture with higher percentages of dimethyl diselenide volatilization. Molecular characterization with three-dimensional fluorescence and ultra-high resolution mass spectrometry suggests that CO2 emission is sensitive to the availability of microbial protein-like substances and free energy from organic carbon biodegradation under variable moisture conditions. Predominant Se binding to biodegradable organic matter resulted in high dependence of Se volatilization on rates of greenhouse gas emissions. These findings together highlight the importance of dynamic organic carbon quality for soil respiration and consequent Mollisol Se loss risk, with implications for science-based management of C and Se resources in agricultural lands to combat with Se deficiency.

Published

2024

10. Geochemical background and geopedological interactions of selenium in soils from Piauí state, Northeastern Brazil

Author

Gustavo de Sousa de Oliveira Leite, Clístenes Williams Araújo do Nascimento, Rennan Cabral Nascimento, Cácio Luiz Boechat, Pâmalla Graziely Carvalho Morais, Paloma Cunha Saraiva, Lizandra de Sousa Luz Duarte, Jacqueline Sousa Paes Landim, and Yuri Jacques Agra Bezerra da Silva

Subjects

selenium deficiency, human health, guideline values, spatial variability, Agriculture (General), S1-972

Abstract

ABSTRACT Although Selenium (Se) plays a role as a micronutrient for humans through vegetable consumption, it is also recognized as toxic when present in excessive quantities. Therefore, quantifying Se contents in soils can prevent diseases influenced by crop Se deficiency or excess. We aimed to measure background contents, establish quality reference values (QRV) for Se in soils from two Brazilian biomes (Cerrado and Caatinga), and assess how geopedological factors affect Se content and spatial variability. Two hundred and eight composite topsoil samples were analyzed for Se content, covering an area of about 251,578 km². Sampling sites were under the minimal anthropogenic influence to represent Se background contents. Selenium contents were determined by hydride generation atomic absorption spectroscopy (HGAAS), ranging from 0.002 to 4.78 mg kg-1. Most soils had contents below the world average of 0.44 mg kg-1 but still above the soil content that causes human Se deficiency (0.125 mg kg-1). Soils from Cerrado and Caatinga biomes showed similar average contents of Se, 0.41 and 0.47 mg kg-1, respectively. Organic carbon content and soil particle size (clay fraction) were the main factors governing Se content in the soils. Our results contribute to understanding the Se content and spatial distribution in tropical soils and the factors governing them. They also provide a tool for agriculture and environmental decision-makers to plan public policies regarding the management of Se levels in these and similar tropical soils in the world.

Published

2024

11. The Association Between the Imbalance of Single-Carbon Nutrients in Early Pregnancy and Gestational Diabetes Mellitus Risk is Influenced by Serum Selenium Status: A Cohort Study

Author

Liu PJ, Ma L, Li R, and Liu Y

Subjects

gestational diabetes mellitus, folate, vitamin b12, early pregnancy, selenium deficiency, Specialties of internal medicine, RC581-951

Abstract

Peng Ju Liu,1 Liangkun Ma,2 Rui Li,1 Yanping Liu1 1Department of Clinical Nutrition, Peking Union Medical College Hospital, China Academic Medical Science and Peking Union Medical College, Beijing, People’s Republic of China; 2Department of Gynaecology and Obstetrics, Peking Union Medical College Hospital, China Academic Medical Science and Peking Union Medical College, Beijing, People’s Republic of ChinaCorrespondence: Yanping Liu, Tel/Fax +86-10-69155535, Email liuyp1227@vip.sina.comPurpose: The role of imbalanced one-carbon nutrients in gestational diabetes mellitus (GDM) risk has garnered significant interest, yet existing studies yield inconsistent results. Our objective was to assess whether the association between an unbalanced ratio of folate to vitamin B12 and GDM risk is influenced by the status of other micronutrients.Methods: This cohort study included 366 singleton-pregnancy Han women enrolled at the Shunyi District Maternal and Child Health Hospital in Beijing, China. During the first trimester of pregnancy, we measured red blood cell (RBC) folate, serum levels of vitamin B12, vitamin D, and selenium. We examined the association between the imbalanced status of RBC folate and vitamin B12 and GDM risk using logistic regression, stratified by serum selenium or vitamin D status.Results: Among the 366 women, 67 (18.3%) were diagnosed with GDM, 201 (54.9%) had vitamin D deficiency, and 245 (66.9%) had selenium deficiency. Overall, women with higher RBC folate/vitamin B12 ratios did not exhibit a significantly higher risk of GDM compared to those in reference tertile (all P > 0.05). Subsequently, we divided women into deficient and non-deficient groups based on serum selenium or vitamin D levels. In women with selenium deficiency, those in the highest tertile of the RBC folate/vitamin B12 ratio had the highest odds of GDM [OR: 3.40 (1.16– 9.97), P=0.026] after adjusting for covariates. However, similar findings were not observed in pregnancies with normal selenium status. Irrespective of vitamin D status, women with higher RBC folate/vitamin B12 ratios did not exhibit a significantly increased risk of GDM.Conclusion: Micronutrient deficiencies are common in early pregnancy. Women with a higher folate/vitamin B12 ratio coupled with selenium deficiency in early pregnancy have a higher GDM risk. These findings underscore the importance of micronutrient assessment in early pregnancy and subsequent interventions for micronutrient deficiencies.Keywords: gestational diabetes mellitus, folate, vitamin B12, early pregnancy, selenium deficiency

Published

2023

12. Selenium Concentrations and Multiple Trauma/Trace Elements in Trauma: A Focus on Selenium

Author

Jang, Ji Young, Lee, Jae Gil, Patel, Vinood B., Series Editor, Preedy, Victor R., Series Editor, and Rajendram, Rajkumar, editor

Published

2023

13. Urine Se concentration poorly predicts plasma Se concentration at sub-district scales in Zimbabwe, limiting its value as a biomarker of population Se status

Author

Beaula Mutonhodza, Mavis P. Dembedza, Edward J. M. Joy, Muneta G. Manzeke-Kangara, Handrea Njovo, Tasiana K. Nyadzayo, R. Murray Lark, Alexander A. Kalimbira, Elizabeth H. Bailey, Martin R. Broadley, Tonderayi M. Matsungo, and Prosper Chopera

Subjects

biomarkers, selenium deficiency, dietary selenium intake, estimated average requirement, iodothyronine deiodinase, micronutrient surveillance, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionThe current study investigated the value of urine selenium (Se) concentration as a biomarker of population Se status in rural sub-Saharan Africa.MethodUrine and plasma Se concentrations were measured among children aged 6–59 months (n = 608) and women of reproductive age (WRA, n = 781) living in rural Zimbabwe (Murehwa, Shamva, and Mutasa districts) and participating in a pilot national micronutrient survey. Selenium concentrations were measured by inductively coupled plasma-mass spectrometry (ICP-MS), and urine concentrations were corrected for hydration status.ResultsThe median (Q1, Q3) urine Se concentrations were 8.4 μg/L (5.3, 13.5) and 10.5 μg/L (6.5, 15.2) in children and WRA, respectively. There was moderate evidence for a relationship between urine Se concentration and plasma Se concentration in children (p = 0.0236) and WRA (p = < 0.0001), but the relationship had poor predictive value. Using previously defined thresholds for optimal activity of iodothyronine deiodinase (IDI), there was an association between deficiency when indicated by plasma Se concentrations and urine Se concentrations among WRA, but not among children.DiscussionUrine Se concentration poorly predicted plasma Se concentration at sub-district scales in Zimbabwe, limiting its value as a biomarker of population Se status in this context. Further research is warranted at wider spatial scales to determine the value of urine Se as a biomarker when there is greater heterogeneity in Se exposure.

Published

2024

14. The cardiomyopathy of cystic fibrosis: a modern form of Keshan disease

Author

Javier Segovia-Cubero, Lorena Ruiz-Bautista, Luis Maiz-Carro, Rosa M. Girón-Moreno, M. Concepción Prados-Sánchez, M. Teresa Martínez-Martínez, Montserrat González-Estecha, Susana Mingo-Santos, Manuel Gómez-Bueno, Clara Salas-Antón, Miguel A. Cavero-Gibanel, Miguel Pastrana-Ledesma, Pablo García-Pavía, Rosalía Laporta-Hernández, David Sánchez-Ortiz, and Luis Alonso-Pulpón

Subjects

cystic fibrosis, cardiomyopathy, selenium deficiency, Keshan disease, heart failure, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

IntroductionWe conducted a study to determine the prevalence of structural heart disease in patients with CF, the characteristics of a cardiomyopathy not previously described in this population, and its possible relationship with nutritional deficiencies in CF.MethodsWe studied 3 CMP CF patients referred for heart-lung transplantation and a prospective series of 120 adult CF patients. All patients underwent a clinical examination, blood tests including levels of vitamins and trace elements, and echocardiography with evaluation of myocardial strain. Cardiac magnetic resonance imaging (CMR) was performed in patients with CMP and in a control group. Histopathological study was performed on hearts obtained in transplant or necropsy.ResultsWe found a prevalence of 10% (CI 4.6%–15.4%) of left ventricular (LV) dysfunction in the prospective cohort. Myocardial strain parameters were already altered in CF patients with otherwise normal hearts. Histopathological examination of 4 hearts from CF CMP patients showed a unique histological pattern of multifocal myocardial fibrosis similar to Keshan disease. Four of the five CF CMP patients undergoing CMR showed late gadolinium uptake, with a characteristic patchy pattern in 3 cases (p

Published

2024

15. Synergistic effects of T-2 toxin and selenium deficiency exacerbate renal fibrosis through modulation of the ERα/PI3K/Akt signaling pathway

Author

Haobiao Liu, Xue Lin, Mumba Mulutula Chilufya, Lichun Qiao, Miaoye Bao, Xinyue Wen, Rongqi Xiang, Huifang He, Miaoqian Li, and Jing Han

Subjects

T-2 toxin, Selenium deficiency, Renal fibrosis, ERα/PI3K/Akt signaling pathway, Metabolomics, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

As common pathogenic agents in the world and widely distributed globally, T-2 toxin and selenium deficiency might exacerbate toxic effects by combined exposure, posing a dramatic health hazard to humans and animals. In this study, we aim to elucidate the underlying mechanisms of renal fibrosis triggered by T-2 toxin and selenium deficiency exposure. A total of thirty-two rats are randomly divided into the normal control, T-2 toxin, selenium deficiency, and combined intervention groups. T-2 toxin (100 ng/g) is intragastric gavaged to the rats in compliance with the body weight. Both the standard (containing selenium 0.20 mg/Kg) and selenium-deficient (containing selenium 0.02 mg/Kg) diets were manufactured adhering to the AIN-93 formula. After 12 weeks of intervention, renal tissue ultrastructural and pathological changes, inflammatory infiltration, epithelial mesenchymal transition (EMT), and extracellular matrix (ECM) deposition are evaluated, respectively. Metabolomics analysis is conducted to explore the underlying pathology of renal fibrosis, followed by the validation of potential mechanisms at gene and protein levels. T-2 toxin and selenium deficiency exposure results in podocyte foot process elongation or fusion, tubular vacuolization and dilatation, and collagen deposition in the kidneys. Additionally, it also increases inflammatory infiltration, EMT conversion, and ECM deposition. Metabolomics analysis suggests that T-2 toxin and selenium deficiency influence amino acid and cholesterol metabolism, respectively, and the estrogen signaling pathway is probably engaged in renal fibrosis progression. Moreover, T-2 toxin and selenium deficiency are found to regulate the expressions of the ERα/PI3K/Akt signaling pathway. In conclusion, T-2 toxin and selenium deficiency synergistically exacerbate renal fibrosis through regulating the ERα/PI3K/Akt signaling pathway, and inflammatory infiltration, EMT and ECM deposition are involved in this process.

Published

2024

16. Comparative Analysis of Gut Microbiota from Rats Induced by Se Deficiency and T-2 Toxin.

Author

Wu, Yifan, Gong, Yi, Zhang, Yu, Li, Shujin, Wang, Chaowei, Yuan, Yuequan, Lv, Xi, Liu, Yanli, Chen, Feihong, Chen, Sijie, Zhang, Feiyu, Guo, Xiong, Wang, Xi, Ning, Yujie, and Zhao, Hongmou

Abstract

The aim of this study was to analyze the differences in gut microbiota between selenium deficiency and T-2 toxin intervention rats. Knee joint and fecal samples of rats were collected. The pathological characteristics of knee cartilage were observed by safranin O/fast green staining. DNA was extracted from fecal samples for PCR amplification, and 16S rDNA sequencing was performed to compare the gut microbiota of rats. At the phylum level, Firmicutes (81.39% vs. 77.06%) and Bacteroidetes (11.11% vs. 14.85%) were dominant in the Se-deficient (SD) group and T-2 exposure (T-2) groups. At the genus level, the relative abundance of Ruminococcus_1 (12.62%) and Ruminococcaceae_UCG-005 (10.31%) in the SD group were higher. In the T-2 group, the relative abundance of Lactobacillus (11.71%) and Ruminococcaceae_UCG-005 (9.26%) were higher. At the species level, the high-quality bacteria in the SD group was Ruminococcus_1_unclassified, and Ruminococcaceae_UCG-005_unclassified in the T-2 group. Lactobacillus sp _L_YJ and Lactobacillus_crispatus were the most significant biomarkers in the T-2 group. This study analyzed the different compositions of gut microbiota in rats induced by selenium deficiency and T-2 toxin, and revealed the changes in gut microbiota, so as to provide a certain basis for promoting the study of the pathogenesis of Kashin–Beck disease (KBD). [ABSTRACT FROM AUTHOR]

Published

2023

17. Extracellular Vesicles Derived from Selenium-Deficient MAC-T Cells Aggravated Inflammation and Apoptosis by Triggering the Endoplasmic Reticulum (ER) Stress/PI3K-AKT-mTOR Pathway in Bovine Mammary Epithelial Cells.

Author

Chen, Yu, Zhang, Xiangqian, Yang, Jing, Feng, Wen, Deng, Ganzhen, Xu, Shiwen, and Guo, Mengyao

Subjects

ENDOPLASMIC reticulum, EXTRACELLULAR vesicles, EPITHELIAL cells, BOVINE mastitis, CELL analysis, APOPTOSIS, PYROPTOSIS

Abstract

Selenium (Se) deficiency disrupts intracellular REDOX homeostasis and severely deteriorates immune and anti-inflammatory function in high-yielding periparturient dairy cattle. To investigate the damage of extracellular vesicles derived from Se-deficient MAC-T cells (SeD-EV) on normal mammary epithelial cells, an in vitro model of Se deficiency was established. Se-deficient MAC-T cells produced many ROS, promoting apoptosis and the release of inflammatory factors. Extracellular vesicles were successfully isolated by ultrahigh-speed centrifugation and identified by transmission electron microscopy, particle size analysis, and surface markers (CD63, CD81, HSP70, and TSG101). RNA sequencing was performed on exosomal RNA. A total of 9393 lncRNAs and 63,155 mRNAs transcripts were identified in the SeC and SeD groups, respectively, of which 126 lncRNAs and 955 mRNAs were differentially expressed. Furthermore, SeD-EV promoted apoptosis of normal MAC-T cells by TUNEL analysis. SeD-EV significantly inhibited Bcl-2, while Bax and Cleaved Caspase3 were greatly increased. Antioxidant capacity (CAT, T-AOC, SOD, and GSH-Px) was inhibited in SeD-EV-treated MAC-T cells. Additionally, p-PERK, p-eIF2α, ATF4, CHOP, and XBP1 were all elevated in MAC-T cells supplemented with SeD-EV. In addition, p-PI3K, p-Akt, and p-mTOR were decreased strikingly by SeD-EV. In conclusion, SeD-EV caused oxidative stress, thus triggering apoptosis and inflammation through endoplasmic reticulum stress and the PI3K-Akt-mTOR signaling pathway, which contributed to explaining the mechanism of Se deficiency causing mastitis. [ABSTRACT FROM AUTHOR]

Published

2023

18. Selenium in Infants and Preschool Children Nutrition: A Literature Review.

Author

Dobrzyńska, Małgorzata, Kaczmarek, Katarzyna, Przysławski, Juliusz, and Drzymała-Czyż, Sławomira

Abstract

Selenium (Se), an essential trace element, is fundamental to human health, playing an important role in the formation of thyroid hormones, DNA synthesis, the immune response, and fertility. There is a lack of comprehensive epidemiological research, particularly the serum Se concetration in healthy infants and preschool children compared to the estimated dietary Se intake. However, Se deficiencies and exceeding the UL have been observed in infants and preschool children. Despite the observed irregularities in Se intake, there is a lack of nutritional recommendations for infants and preschool children. Therefore, the main objective of this literature review was to summarize what is known to date about Se levels and the risk of deficiency related to regular consumption in infants and preschool children. [ABSTRACT FROM AUTHOR]

Published

2023

19. Single and Combined Effects of Short-Term Selenium Deficiency and T-2 Toxin-Induced Kidney Pathological Injury Through the MMPs/TIMPs System.

Author

Guo, Ziwei, Chilufya, Mumba mulutula, Deng, Huan, Qiao, Lichun, Liu, Jiaxin, Xiao, Xiang, Zhao, Yan, Lin, Xue, Liu, Haobiao, Xiang, Rongqi, and Han, Jing

Abstract

The single and combined effects of short-term selenium (Se) deficiency and T-2 toxin-induced kidney pathological injury through the MMPs/TIMPs system were investigated. Forty-eight rats were randomly divided into control, 10 ng/g T-2 toxin, 100 ng/g T-2 toxin, Se-deficient, 10 ng/g T-2 toxin and Se deficiency combined, and 100 ng/g T-2 toxin and Se deficiency combined groups for a 4-week intervention. The kidney Se concentration was measured to evaluate the construction of animal models of Se deficiency. Kidney tissues were analyzed by hematoxylin–eosin staining, Masson staining, and transmission electron microscope to observe the pathological changes, the severity of kidney fibrosis, and ultrastructural changes, respectively. Meanwhile, quantitative polymerase chain reaction and immunohistochemical staining were used to analyze the gene and protein expression levels of matrix metallopeptidase 2/3 (MMP2/3) and tissue inhibitor of metalloproteinase 1 (TIMP1). The results showed that short-term Se deficiency and T-2 toxin exposure can cause kidney injury through tubular degeneration and even lead to kidney fibrosis. And the combination of T-2 toxin and Se deficiency had a synergistic effect on the kidney. A dose–response effect of the T-2 toxin was also observed. At the gene and protein levels, the expression of MMP2/3 in the intervention group increased, while the expression of TIMP1 decreased compared with the control group. In conclusion, short-term Se deficiency and T-2 toxin exposure might lead to injury and even the development of fibrosis in the kidneys, and combined intervention can increase the severity with a dose-dependent trend. MMP2/3 and TIMP1 likely play a significant role in the development of kidney fibrosis. [ABSTRACT FROM AUTHOR]

Published

2023

20. Short-term Dietary Selenium Deficiency Induced Liver Fibrosis by Inhibiting the Akt/mTOR Signaling Pathway in Rats.

Author

Qiao, Lichun, Lin, Xue, Zhao, Yan, Wang, Qingfeng, Liu, Haobiao, You, Mei, Yuan, Qian, Yang, Zhihao, Bian, Wenming, Liu, Jiaxin, Guo, Ziwei, and Han, Jing

Abstract

The effects of short-term dietary selenium deficiency on the liver and protein kinase B (Akt)/mammalian target of rapamycin (mTOR) signaling pathway were evaluated. Fourteen growing rats were randomly divided into control and selenium deficiency groups and fed standard and selenium-deficient diets for 4 weeks, respectively. The serum and liver selenium concentrations were measured to evaluate the construction of animal models with selenium deficiency. Liver tissues were analyzed by transmission electron microscope, hematoxylin–eosin staining, and Masson staining to observe the ultrastructural changes, pathological changes, and severity of liver fibrosis, respectively. Besides, immunohistochemical staining (IHC) was used to analyze the effects of selenium deficiency on the expression of key proteins in the Akt/mTOR signaling pathway. The results showed that selenium concentrations in the serum and liver tissue were significantly lower in the selenium deficiency group than in the control group, and the selenium deficiency intervention could affect the morphology and structure of hepatocytes and mitochondria. Meanwhile, the liver tissue showed structural damage and fibrotic changes in the selenium deficiency group. The IHC results showed the positive staining rates of Akt, phosphorylation-modified protein kinase B (p-Akt), mTOR, and phosphorylation-modified mammalian target of the rapamycin (p-mTOR) in the liver of the selenium deficiency group which were significantly lower than that of the control group. In conclusion, short-term selenium deficiency dietary intervention could lead to liver fibrosis by inhibiting the Akt/mTOR signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2023

21. Selenium Deficiency Induces Inflammatory Response and Decreased Antimicrobial Peptide Expression in Chicken Jejunum Through Oxidative Stress.

Author

He, Yujiao, Peng, Lin, Zhao, Xiaochun, Fan, Xue, Tang, Xinyu, Shi, Guangliang, and Li, Shu

Abstract

Selenium deficiency can affect the level of selenoprotein in organs and tissues and cause inflammation. However, the mechanism of selenium deficiency on jejunal injury in chickens remains unclear. In this study, we established a selenium deficiency model in chickens by feeding a low selenium diet and observed ultrastructural and pathological changes in the jejunum. The expression levels of 25 selenoproteins, the levels of oxidative stress, tight junction (TJ) proteins, and antimicrobial peptides (AMP), as well as the expression levels of factors related to inflammatory signaling pathways, were examined in the intestine and analyzed using principal component analysis (PCA). The results of PCA and quantitative real-time PCR (qRT-PCR) showed that selenium deficiency mainly affected the expression of antioxidant selenoproteins in chicken jejunum, especially glutathione peroxidases, thioredoxin reductase, and iodothyronine deiodinase, thus weakening the antioxidant function in the intestine and inducing oxidative stress. We also found disruption of intestinal TJ structures, a significant reduction in TJ protein expression, and downregulation of antimicrobial peptide levels, suggesting that selenium deficiency led to damage of the intestinal barrier. In addition, a significant increase in inflammatory cell infiltration and expression of inflammatory factors was observed in the jejunum, indicating that selenium deficiency induces inflammatory injury. In conclusion, selenium deficiency downregulates antioxidant selenoproteins levels, induces oxidative stress, decreases intestinal AMP levels, and leads to inflammatory injury and disruption of the intestinal barrier in the jejunum. These results shed new light on the molecular mechanisms of intestinal damage caused by selenium deficiency. [ABSTRACT FROM AUTHOR]

Published

2023

22. Selenium deficiency and scurvy due to an imbalanced diet of snacks and lacto-fermenting drinks: a case report of a 7-year-old boy with autism spectrum disorder

Author

Makoto Okada, Yugo Nagayama, Hitomi Saiki, Kazutoshi Ito, Shuichi Yatsuga, and Shinichiro Nagamitsu

Subjects

Autism spectrum disorder, Selenium deficiency, Scurvy, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456, Medicine (General), R5-920

Abstract

Abstract Background There have been reports of isolated trace elements or vitamin deficiencies due to imbalanced diets, but no cases of selenium deficiency combined with scurvy have been reported. Case presentation A 7 year-old boy diagnosed with autistic spectrum disorder and mild psychomotor retardation, started an imbalanced diet including specific snacks and lacto-fermenting drinks from 5 years of age. Gingival hemorrhage and perioral erosions occurred at 6 years and 8 months of age, and he was referred to our hospital at 7 years of age. Slight tachycardia was found. Serum vitamin C level was 1.1 µg/dL (reference range (rr): 5–17.5 µg/dL), and selenium level was 2.8 µg/dL (rr: 7.7–14.8 µg/dL). He was diagnosed with both selenium deficiency and scurvy. Multivitamins and sodium selenate were administered for 12 days during admission, and symptoms of selenium deficiency and scurvy improved. After discharge, symptoms abated following the administration of multivitamins and regular administration of sodium selenate every 3 months. Conclusions We report a complicated case of both selenium deficiency and scurvy due to an imbalanced diet of snacks and lacto-fermenting drinks in a 7-year-old boy with autism spectrum disorder. In patients with imbalanced diet, regular blood tests including trace elements and vitamins are necessary.

Published

2023

23. Bisphenol A aggravate selenium deficiency‐induced apoptosis via miR‐215‐3p/Dio1 to activate ROS/PI3K/AKT pathway in chicken arterial.

Author

Li, Zhe, Xu, Tong, Fan, Xue, Chen, Kai, Wan, Chunyan, Li, Xiang, Yin, Hang, and Li, Shu

Subjects

*BISPHENOL A, *CHICKENS, *NITRIC-oxide synthases, *BISPHENOLS, *APOPTOSIS, *SELENIUM, *CHICKEN embryos

Abstract

Both bisphenol A (BPA) and selenium (Se) deficiency can affect the expression of microRNAs (miRNAs), which can specifically regulate its target mRNA and induce apoptosis, and play a significant role in cardiovascular injury diseases. To explore the mechanism of apoptosis induced by BPA and Se deficiency in chicken arterial endothelial tissue and the role of miRNAs in this process, the model of BPA exposure/Se deficiency in chicken and PAEC cells have been employed. The targeting relationship between miR‐215‐3p and iodothyronine deiodinase 1 (Dio1) in PAEC was verified by double luciferase gene report. The level of miR‐215‐3p was detected by qRT‐PCR. The oxidative stress level of arterial endothelial cells was detected by oxidative stress kit and DCFH‐DA probe method. The PI3K/AKT pathway, mitochondrial dynamics, and apoptosis‐related genes were detected by qRT‐PCR and western blot. The mitochondrial ATP level and nitric oxide synthases (NOSs) level were detected with the kit. TUNEL, acridine orange/ethidium bromide, and flow cytometry were used to detect the level of apoptosis. The results showed that BPA exposure and Se deficiency led to overexpression of miR‐215‐3p, aggravated oxidative stress, inhibited activation of PI3K/AKT pathway, promoted mitochondrial division, increased expression of apoptosis related genes, and finally led to apoptosis of chicken arterial endothelial cells. We also established knockdown/overexpression models of miR‐215‐3p and Dio1 in vitro, and found that overexpression of miR‐215‐3p and knockout of Dio1 can induce apoptosis. Interestingly, miR‐215‐3p‐Inhibitor and N‐acetyl‐ l‐cysteine (NAC) partially prevented apoptosis caused by BPA exposure and Se deficiency, and LY294002 aggravated apoptosis. These results suggest that BPA exposure aggravates the apoptosis of Se deficient arterial endothelial cells in chickens by regulating the ROS/PI3K/AKT pathway activated by miR‐215‐3p/Dio1. The miR‐215‐3p/Dio1 axis provides a new way to understand the toxic mechanism of BPA exposure and Se deficiency, and reveals a new regulatory model of apoptosis damage in vascular diseases. [ABSTRACT FROM AUTHOR]

Published

2023

24. Selenium deficiency causes hypertension by increasing renal AT1 receptor expression via GPx1/H2O2/NF-κB pathway.

Author

Lei, Lifu, Zhang, Fuwei, Huang, Juan, Yang, Xinyue, Zhou, Xiaoxin, Yan, Hongjia, Chen, Caiyu, Zheng, Shuo, Si, Liangyi, Jose, Pedro A., Zeng, Chunyu, and Yang, Jian

Subjects

*SELENOPROTEINS, *ANGIOTENSIN II, *PROXIMAL kidney tubules, *SELENIUM, *GLUTATHIONE peroxidase, *BLOOD pressure, *HYPERTENSION

Abstract

Epidemiological studies show an association between low body selenium and the risk of hypertension. However, whether selenium deficiency causes hypertension remains unknown. Here, we report that Sprague-Dawley rats fed a selenium-deficient diet for 16 weeks developed hypertension, accompanied with decreased sodium excretion. The hypertension of selenium-deficient rats was associated with increased renal angiotensin II type 1 receptor (AT 1 R) expression and function that was reflected by the increase in sodium excretion after the intrarenal infusion of the AT 1 R antagonist candesartan. Selenium-deficient rats had increased systemic and renal oxidative stress; treatment with the antioxidant tempol for 4 weeks decreased the elevated blood pressure, increased sodium excretion, and normalized renal AT 1 R expression. Among the altered selenoproteins in selenium-deficient rats, the decrease in renal glutathione peroxidase 1 (GPx1) expression was most prominent. GPx1, via regulation of NF-κB p65 expression and activity, was involved in the regulation of renal AT 1 R expression because treatment with dithiocarbamate (PDTC), an NF-κB inhibitor, reversed the up-regulation of AT 1 R expression in selenium-deficient renal proximal tubule (RPT) cells. The up-regulation of AT 1 R expression with GPx1 silencing was restored by PDTC. Moreover, treatment with ebselen, a GPX1 mimic, reduced the increased renal AT 1 R expression, Na+-K+-ATPase activity, hydrogen peroxide (H 2 O 2) generation, and the nuclear translocation of NF-κB p65 protein in selenium-deficient RPT cells. Our results demonstrated that long-term selenium deficiency causes hypertension, which is due, at least in part, to decreased urine sodium excretion. Selenium deficiency increases H 2 O 2 production by reducing GPx1 expression, which enhances NF-κB activity, increases renal AT 1 R expression, causes sodium retention and consequently increases blood pressure. [Display omitted] • Long-term selenium deficiency causes hypertension. • Selenium deficiency increases renal AT 1 R expression and sodium retention. • Selenium deficiency elevates NF-κB activity via GPx1/H 2 O 2 pathway. [ABSTRACT FROM AUTHOR]

Published

2023

25. Proposal to Screen for Zinc and Selenium in Patients with IgA Deficiency.

Author

Abu Jamra, Soraya Regina, Komatsu, Camila Gomes, Barbosa Jr., Fernando, Roxo-Junior, Persio, and Navarro, Anderson Marliere

Abstract

The increase in life expectancy can be a consequence of the world's socioeconomic, sanitary and nutritional conditions. Some studies have demonstrated that individuals with a satisfactory diet variety score present a lower risk of malnutrition and better health status. Zinc and selenium are important micronutrients that play a role in many biochemical and physiological processes of the immune system. Deficient individuals can present both innate and adaptive immunity abnormalities and increased susceptibility to infections. Primary immunodeficiency diseases, also known as inborn errors of immunity, are genetic disorders classically characterized by an increased susceptibility to infection and/or dysregulation of a specific immunologic pathway. IgA deficiency (IgAD) is the most common primary antibody deficiency. This disease is defined as serum IgA levels lower than 7 mg/dL and normal IgG and IgM levels in individuals older than four years. Although many patients are asymptomatic, selected patients suffer from different clinical complications, such as pulmonary infections, allergies, autoimmune diseases, gastrointestinal disorders and malignancy. Knowing the nutritional status as well as the risk of zinc and selenium deficiency could be helpful for the management of IgAD patients. Objectives: to investigate the anthropometric, biochemical, and nutritional profiles and the status of zinc and selenium in patients with IgAD. Methods: in this descriptive study, we screened 16 IgAD patients for anthropometric and dietary data, biochemical evaluation and determination of plasma and erythrocyte levels of zinc and selenium. Results: dietary intake of zinc and selenium was adequate in 75% and 86% of the patients, respectively. These results were consistent with the plasma levels (adequate levels of zinc in all patients and selenium in 50% of children, 25% of adolescents and 100% of adults). However, erythrocyte levels were low for both micronutrients (deficiency for both in 100% of children, 75% of adolescents and 25% of adults). Conclusion: our results highlight the elevated prevalence of erythrocyte zinc and selenium deficiency in patients with IgAD, and the need for investigation of these micronutrients in their follow-up. [ABSTRACT FROM AUTHOR]

Published

2023

26. The Controlling Factors of Soil Selenium Content in a Selenium-Deficient Area in Southwest China.

Author

Wan, He-Shuang, Zhang, Wei-Chun, Wu, Wei, and Liu, Hong-Bin

Subjects

*SELENIUM, *SOILS, *FARM management, *RANDOM forest algorithms, *ORGANIC compounds, *TRACE elements

Abstract

Selenium (Se) is a beneficial microelement for humans, and its varying abundances and shortages have attracted widespread concern. The accumulation process of soil Se is quite complicated, being controlled by multiple factors. However, the influence mechanism of soil properties, climate, and topographic conditions on Se distribution is still unclear in Se-deficient areas. For this study, we collected 2804 samples from cropland soil to assess the levels of Se and the factors that influence those levels in Se-deficient areas of southwestern China. The Se content in this area (0.17 mg/kg) was less than the mean value of China as a whole (0.29 mg/kg). Moran's I index and a random forest (RF) model showed that higher Se levels were mostly observed in the southern and northern sections of the area we studied. The RF model had excellent performance in predicting soil Se content, with an accuracy of 64%. The use of Shapley additive explanations indicated that soil organic matter (SOM) and mean annual precipitation (MAP) were the critical factors determining Se distribution. The areas with high SOM and MAP showed high Se levels. The information obtained from this work can provide guidance for agricultural planning in Se-deficient areas. [ABSTRACT FROM AUTHOR]

Published

2023

27. Oxidative Stress Induced by Selenium Deficiency Contributes to Inflammation, Apoptosis and Necroptosis in the Lungs of Calves.

Author

Mu, Jing, Lei, Lei, Zheng, Yingce, Liu, Jia, Li, Jie, Li, Ding, Wang, Guanbo, and Liu, Yun

Subjects

LUNGS, OXIDATIVE stress, SELENIUM, CALVES, ANIMAL weaning, APOPTOSIS, GENE expression

Abstract

Selenium is an essential trace element for health that can only be obtained through food. However, the pathological processes of selenium deficiency in cattle have received little attention. This study investigated the effects of selenium deficiency on oxidative stress, apoptosis, inflammation, and necroptosis in the lungs of weaning calves compared with healthy calves as controls. The lung selenium content and the expression of 11 selenoproteins mRNA in selenium-deficient calves were substantially reduced compared with the controls. Pathological results showed engorged alveolar capillaries, thickened alveolar septa, and diffuse interstitial inflammation throughout the alveolar septa. The levels of GSH and T-AOC, as well as the CAT, SOD, and TrxR activities, were significantly decreased compared with healthy calves. MDA and H2O2 were significantly elevated. Meanwhile, the apoptosis activation in the Se-D group was validated. Next, in the Se-D group, several pro-inflammatory cytokines showed higher expression. Further research revealed that the lungs in the Se-D group experienced inflammation via hyperactive NF-κB and MAPK pathways. The high level of expression of c-FLIP, MLKL, RIPK1, and RIPK3 indicated that necroptosis also causes lung damage during selenium deficiency. [ABSTRACT FROM AUTHOR]

Published

2023

28. A pilot survey of selenium status and its geospatial variation among children and women in three rural districts of Zimbabwe

Author

Beaula Mutonhodza, Christopher Chagumaira, Mavis P. Dembedza, Edward J. M. Joy, Muneta G. Manzeke-Kangara, Handrea Njovo, Tasiana K. Nyadzayo, R. Murray Lark, Alexander A. Kalimbira, Elizabeth H. Bailey, Martin R. Broadley, Tonderayi M. Matsungo, and Prosper Chopera

Subjects

selenium deficiency, conditional kriging, geospatial patterns, micronutrients, glutathione peroxidase 3, iodothyronine deiodinase, Nutrition. Foods and food supply, TX341-641

Abstract

IntroductionSelenium (Se) deficiency is increasingly recognized as a public health problem in sub-Saharan Africa.MethodsThe current cross-sectional study assessed the prevalence and geospatial patterns of Se deficiency among children aged 6–59 months (n = 741) and women of 15–49 years old (n = 831) selected by simple random sampling in rural Zimbabwe (Murewa, Shamva, and Mutasa districts). Venous blood samples were collected and stored according to World Health Organization guidelines. Plasma Se concentration was determined by inductively coupled plasma-mass spectrometry.ResultsMedian, Q1, and Q3 plasma Se concentrations were 61.2, 48.7, and 73.3 μg/L for women and 40.5, 31.3, and 49.5 μg/L for children, respectively. Low plasma Se concentrations (9.41 μg/L in children and 10.20 μg/L in women) indicative of severe Se deficiency risk was observed. Overall, 94.6% of children and 69.8% of women had sub-optimal Se status defined by plasma Se concentrations of

Published

2023

29. The role of selenium in severe fever with thrombocytopenia syndrome: an integrative analysis of surveillance data and clinical data

Author

Tian-Le Che, Xin-Lou Li, Jian-Bo Tian, Gang Wang, Xue-Fang Peng, Hai-Yang Zhang, Jia-Hao Chen, Ying Zhu, Wen-Hui Zhang, Tao Wang, Bao-Cheng Liu, Qiang Xu, Chen-Long Lv, Bao-Gui Jiang, Zhong-Jie Li, Li-Qun Fang, and Wei Liu

Subjects

SFTS, Selenium deficiency, CFR, Clinic study, Spatial study, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Selenium deficiency can be associated with increased susceptibility to some viral infections and even more severe diseases. In this study, we aimed to examine whether this association applies to severe fever with thrombocytopenia syndrome (SFTS). Method: An observational study was conducted based on the data of 13,305 human SFTS cases reported in mainland China from 2010 to 2020. The associations among incidence, case fatality rate of SFTS, and crop selenium concentration at the county level were explored. The selenium level in a cohort of patients with SFTS was tested, and its relationship with clinical outcomes was evaluated. Results: The association between selenium-deficient crops and the incidence rate of SFTS was confirmed by multivariate Poisson analysis, with an estimated incidence rate ratio (IRR, 95% confidence interval [CI]) of 4.549 (4.215−4.916) for moderate selenium-deficient counties and 16.002 (14.706−17.431) for severe selenium-deficient counties. In addition, a higher mortality rate was also observed in severe selenium-deficient counties with an IRR of 1.409 (95% CI: 1.061−1.909). A clinical study on 120 patients with SFTS showed an association between serum selenium deficiency and severe SFTS (odds ratio, OR: 2.94; 95% CI: 1.00–8.67) or fatal SFTS (OR: 7.55; 95% CI: 1.14–50.16). Conclusion: Selenium deficiency is associated with increased susceptibility to SFTS and poor clinical outcomes.

Published

2022

30. Application of the Se NPs-Chitosan molecular complex for the correction of selenium deficiency in rats model

Author

Marina Verevkina, Vadim Goncharov, Evgeny Nesmeyanov, Olga Kamalova, Igor Baklanov, Alexander Pokhilko, Anzhela Nagapetova, and Petr Miroshnichenko

Subjects

selenium, polysacharides, selenium deficiency, immunity, Nutrition. Foods and food supply, TX341-641

Abstract

Selenium is an integral component of vital biologically active compounds of the human body. Currently, the population of many countries is characterized by selenium deficiency. In this regard, many preparations of inorganic and organic forms of selenium have been developed. Nevertheless, it is evident that the most effective solution to the problem is to enrich the diet with bioavailable forms of selenium. Thus, this work aimed to synthesize and study the antioxidant and immunomodulatory effects of the molecular complex of selenium nanoparticles (Se NPs) and chitosan in laboratory rats with induced hyposelenosis. During the experiment with animals, we found that as a result of 70-day consumption of food with a low selenium content, rats develop an alimentary selenium deficiency state, as evidenced by a significant decrease in the content of this trace element in control group rats to 48.2 ±6.71 µg/kg versus 149.3 ±21.63 µg/kg in intact animals. Course, administration of the molecular complex Se NPs- Chitosan to rats of the experimental group, contributed to the replenishment of selenium deficiency: its concentration in the blood of animals was 96.6 ±3.57 µg/kg. Thus, in animals of the control group, there was a decrease in the total number of lymphocytes by 2.7 times, T-lymphocytes – by 1.8 times, and B-lymphocytes – by 2.3 times compared with similar data in intact animals. In the context of hyposelenosis, it is worth mentioning that there was a slight increase in the content of T-helper cells and cytotoxic T-lymphocytes. The synthesized Se NPs – Chitosan complex administration during hyposelenosis demonstrated a notable immunomodulatory effect by restoring the body's immune response indicators. Thus, the total number of lymphocytes increased by 3 times, T-lymphocytes – by 1.9 times, and B-lymphocytes – by 2 times. The number of T-helper cells and cytotoxic T-lymphocytes increased by 1.9 times compared to the group of intact animals and 1.6 times compared to selenium-deficient rats. Thus, the course introduction of the molecular complex Se NPs – Chitosan against the background of selenium deficiency was accompanied by inhibition of free radical oxidation processes, activation of the antioxidant system and restoration of the immune status of the organism of laboratory animals.

Published

2023

31. Selenium deficiency and scurvy due to an imbalanced diet of snacks and lacto-fermenting drinks: a case report of a 7-year-old boy with autism spectrum disorder.

Author

Okada, Makoto, Nagayama, Yugo, Saiki, Hitomi, Ito, Kazutoshi, Yatsuga, Shuichi, and Nagamitsu, Shinichiro

Subjects

AUTISM spectrum disorders, SNACK foods, SCURVY, SELENIUM, GINGIVAL hemorrhage, VITAMIN deficiency

Abstract

Background: There have been reports of isolated trace elements or vitamin deficiencies due to imbalanced diets, but no cases of selenium deficiency combined with scurvy have been reported. Case presentation: A 7 year-old boy diagnosed with autistic spectrum disorder and mild psychomotor retardation, started an imbalanced diet including specific snacks and lacto-fermenting drinks from 5 years of age. Gingival hemorrhage and perioral erosions occurred at 6 years and 8 months of age, and he was referred to our hospital at 7 years of age. Slight tachycardia was found. Serum vitamin C level was 1.1 µg/dL (reference range (rr): 5–17.5 µg/dL), and selenium level was 2.8 µg/dL (rr: 7.7–14.8 µg/dL). He was diagnosed with both selenium deficiency and scurvy. Multivitamins and sodium selenate were administered for 12 days during admission, and symptoms of selenium deficiency and scurvy improved. After discharge, symptoms abated following the administration of multivitamins and regular administration of sodium selenate every 3 months. Conclusions: We report a complicated case of both selenium deficiency and scurvy due to an imbalanced diet of snacks and lacto-fermenting drinks in a 7-year-old boy with autism spectrum disorder. In patients with imbalanced diet, regular blood tests including trace elements and vitamins are necessary. [ABSTRACT FROM AUTHOR]

Published

2023

32. The Effect of Selenium on the Health of Patients With COVID-19.

Author

Nazaruk, Stanisława Katarzyna, Sokołowska, Barbara, and Kulik, Anna

Subjects

SELENIUM deficiency, COVID-19, HOMEOSTASIS, DISEASE incidence, IMMUNE system

Abstract

Selenium (Se) is one of the trace elements necessary for the normal functioning of the human body. Deficiency or excess of this element may pose a potential threat in maintaining the homeostatic mechanisms of the body, including disruption of the immune system. Se deficiency significantly reduces the body's immunity by facilitating infections with various pathogens, including SARS-COV-2 infections. This paper reviews the literature covering issues of the impact of Se deficiency on the incidence and course of COVID-19, and considers its preventive significance. [ABSTRACT FROM AUTHOR]

Published

2023

33. Selenium Deficiency Caused Fibrosis as an Oxidative Stress-induced Inflammatory Injury in the Lungs of Mice.

Author

Fu, Yu-xin, Wang, Yi-bo, Bu, Qing-wei, and Guo, Meng-yao

Abstract

Selenium (Se) is a vital trace element in the regulation of inflammation and antioxidant reactions in both animals and humans. Se deficiency is rapidly affecting lung function. The present study investigated the molecular mechanism of Se deficiency aggravates reactive oxygen species (ROS)-induced inflammation, leading to fibrosis in lung. Mice fed with different concentrations of Se to establish the model. In the Se-deficient group, the ROS and malondialdehyde (MDA) was increased, and the activities of glutathione peroxidase (GSH-Px), superoxide dismutase (SOD), total antioxidant capacity (T-AOC), and catalase (CAT) reduced. The histopathological observation showed that Se deficiency lead to lung texture damage with varying degrees of degeneration, necrosis, shedding of some alveolar epithelial cells, and inflammatory cell infiltration. Immunohistochemistry showed that the expression of α-smooth muscle actin (α-SMA) increased. The fibrosis index was verified with Sirius red staining. The ELISA and qPCR results showed that the inflammatory cytokines (TNF-α and IL-1β) and ECM (collagen I, collagen IV, fibronectin, and laminin) were increased with ROS increasing, which was induced by Se deficiency. The results displayed that oxidative stress with Se deficiency led to an increase in tissue inhibitors of metalloproteinase (TIMPs), but a decrease in matrix metalloproteinases (MMPs). All the results indicated that Se deficiency induced excessive ROS accumulation to generate inflammation, which disrupted ECM homeostasis and aggravated fibrosis in the lung. [ABSTRACT FROM AUTHOR]

Published

2023

34. Biological Activity of Selenium and Its Impact on Human Health.

Author

Genchi, Giuseppe, Lauria, Graziantonio, Catalano, Alessia, Sinicropi, Maria Stefania, and Carocci, Alessia

Subjects

*SELENIUM, *TYPE 2 diabetes, *SELENOPROTEINS, *THYROID diseases, *POISONS, *ANIMAL health

Abstract

Selenium (Se) is a naturally occurring metalloid element essential to human and animal health in trace amounts but it is harmful in excess. Se plays a substantial role in the functioning of the human organism. It is incorporated into selenoproteins, thus supporting antioxidant defense systems. Selenoproteins participate in the metabolism of thyroid hormones, control reproductive functions and exert neuroprotective effects. Among the elements, Se has one of the narrowest ranges between dietary deficiency and toxic levels. Its level of toxicity may depend on chemical form, as inorganic and organic species have distinct biological properties. Over the last decades, optimization of population Se intake for the prevention of diseases related to Se deficiency or excess has been recognized as a pressing issue in modern healthcare worldwide. Low selenium status has been associated with an increased risk of mortality, poor immune function, cognitive decline, and thyroid dysfunction. On the other hand, Se concentrations slightly above its nutritional levels have been shown to have adverse effects on a broad spectrum of neurological functions and to increase the risk of type-2 diabetes. Comprehension of the selenium biochemical pathways under normal physiological conditions is therefore an important issue to elucidate its effect on human diseases. This review gives an overview of the role of Se in human health highlighting the effects of its deficiency and excess in the body. The biological activity of Se, mainly performed through selenoproteins, and its epigenetic effect is discussed. Moreover, a brief overview of selenium phytoremediation and rhizofiltration approaches is reported. [ABSTRACT FROM AUTHOR]

Published

2023

35. Selenium Content in Freshwater and Marine Fish from Southern Brazil Coastal Plain: a Comparative Analysis on Environmental and Dietary Aspects.

Author

Ferraz, Alexandre Henrique, Costa, Larissa Pinheiro, Mirlean, Nicolai, Seus-Arrache, Elisa Rosa, and Adebayo, Segun

Abstract

The coastal plain of Rio Grande do Sul is considered to be a Se-deficient region in terms of its population dietary habit, making it the focus of this study. Selenium dietary deficiency is a concern when we consider its potential critical health effects on the local population. Therefore, this study contributes new information on the levels of Se in several species of marine and freshwater fish in the region of the Patos-Mirim Lagoon system, coupled with a comparative analysis of the metalloid contents between both fish groups. The Se contents in the fish species ranged from 88 ± 13 to 688 ± 19 μg.kg−1. The average Se concentration in the muscle tissue of the freshwater species (251 ± 96 μg kg−1) was significantly lower than that of the marine species (412 ± 143 μg kg−1). Likewise, no evidence of Se biomagnification was found among the fish from both the marine and freshwater environments, suggesting the absence of trophic transfer of Se. We note that to ensure that the RDA (Recommended Daily Allowance, 55 μg day−1) of Se dietary intake for adults is met, at least 134 g of freshwater or 82 g of marine fish fillet could be incorporated into the diet of the population of Rio Grande do Sul. According to target hazard quotients (THQ) and the permissible safety limits, consumption of the fish species analyzed is safe for human health. [ABSTRACT FROM AUTHOR]

Published

2023

36. Selenium deficiency increased duodenal permeability and decreased expression of antimicrobial peptides by activating ROS/NF-κB signal pathway in chickens.

Author

Yujiao, He, Xinyu, Tang, Xue, Fan, Zhe, Li, Lin, Peng, Guangliang, Shi, and Shu, Li

Abstract

Selenium (Se) is an essential trace element for the body. Various organs of the body, including the intestine, are affected by its deficiency. Se deficiency can induce oxidative stress and inflammatory responses in the intestine. It can also increase intestinal permeability and decrease intestinal immune function in mammals. However, the detailed studies, conducted on the intestinal molecular mechanisms of Se deficiency-induced injury in poultry, are limited. This study explored the adverse effects of Se deficiency on intestinal permeability and its mechanism. A Se-deficient chicken model was established, and the morphological changes in the chicken duodenum tissues were observed using a light microscope and transmission electron microscope (TEM). Western blotting, qRT-PCR, and other methods were used to detect the expression levels of selenoproteins, oxidative stress indicators, inflammatory factors, tight junction (TJ) proteins, antimicrobial peptides, and other related indicators in intestinal tissues. The results showed that Se deficiency could decrease the expression levels of selenoproteins and antioxidant capacity, activate the nuclear factor kappa-B (NF-κB) pathway, cause inflammation, and decrease the expression levels of TJ proteins and antimicrobial peptides in the duodenum tissues. The study also demonstrated that Se deficiency could increase intestinal permeability and decrease antimicrobial peptides via reactive oxygen species (ROS)/NF-κB. This study provided a theoretical basis for the scientific prevention and control of Se deficiency in poultry. Se deficiency decreased the expression levels of selenoproteins and increased ROS levels to activate the NF-κB pathway, resulting in the production of pro-inflammatory cytokines, reducing the expression levels of TJ protein, and weakening the expression of antimicrobial peptides, which contributed to the higher intestinal permeability. Oxidative stress weakened the expression of antimicrobial peptides. [ABSTRACT FROM AUTHOR]

Published

2023

37. Application of the Se NPs-Chitosan molecular complex for the correction of selenium deficiency in rats model.

Author

Verevkina, Marina, Goncharov, Vadim, Nesmeyanov, Evgeny, Kamalova, Olga, Baklanov, Igor, Pokhilko, Alexander, Nagapetova, Anzhela, and Miroshnichenko, Petr

Subjects

*CHITOSAN, *SELENIUM deficiency, *BIOACTIVE compounds

Abstract

Selenium is an integral component of vital biologically active compounds of the human body. Currently, the population of many countries is characterized by selenium deficiency. In this regard, many preparations of inorganic and organic forms of selenium have been developed. Nevertheless, it is evident that the most effective solution to the problem is to enrich the diet with bioavailable forms of selenium. Thus, this work aimed to synthesize and study the antioxidant and immunomodulatory effects of the molecular complex of selenium nanoparticles (Se NPs) and chitosan in laboratory rats with induced hyposelenosis. During the experiment with animals, we found that as a result of 70-day consumption of food with a low selenium content, rats develop an alimentary selenium deficiency state, as evidenced by a significant decrease in the content of this trace element in control group rats to 48.2 ±6.71 µg/kg versus 149.3 ±21.63 µg/kg in intact animals. Course, administration of the molecular complex Se NPs-Chitosan to rats of the experimental group, contributed to the replenishment of selenium deficiency: its concentration in the blood of animals was 96.6 ±3.57 µg/kg. Thus, in animals of the control group, there was a decrease in the total number of lymphocytes by 2.7 times, T-lymphocytes - by 1.8 times, and B-lymphocytes - by 2.3 times compared with similar data in intact animals. In the context of hyposelenosis, it is worth mentioning that there was a slight increase in the content of T-helper cells and cytotoxic T-lymphocytes. The synthesized Se NPs - Chitosan complex administration during hyposelenosis demonstrated a notable immunomodulatory effect by restoring the body's immune response indicators. Thus, the total number of lymphocytes increased by 3 times, T-lymphocytes - by 1.9 times, and Blymphocytes - by 2 times. The number of T-helper cells and cytotoxic T-lymphocytes increased by 1.9 times compared to the group of intact animals and 1.6 times compared to selenium-deficient rats. Thus, the course introduction of the molecular complex Se NPs - Chitosan against the background of selenium deficiency was accompanied by inhibition of free radical oxidation processes, activation of the antioxidant system and restoration of the immune status of the organism of laboratory animals. [ABSTRACT FROM AUTHOR]

Published

2023

38. Selenium deficiency and T-2 toxin trigger ferroptosis in cartilage from Kashin-Beck diseases.

Author

Wang, Chaowei, Chen, Sijie, Yuan, Yuequan, Li, Shujin, Lv, Xi, Wu, Yifan, Zhang, Yu, Wang, Wei, Ning, Yujie, and Wang, Xi

Subjects

APOPTOSIS, ENVIRONMENTAL risk, PATHOLOGICAL physiology, EXTRACELLULAR matrix, CARTILAGE cells

Abstract

• The uncertain pathogenic mechanisms of chondrocyte damage impedes progress in the development of effective treatments for KBD. • Selenium deficiency and T-2 toxin are both environmental risk factors for KBD and important influencing factors for ferroptosis. • Selenium deficiency and T-2 toxin exposure may activate ferroptosis in KBD chondrocytes to affect cartilage damage. • Identification of ferroptosis as a new form of chondrocyte death in KBD is much helpful in the development of effective treatments. Kashin-Beck disease (KBD) is a prevalent, endemic, and degenerative cartilage injury disorder, characterized by high rates of teratogenicity and disability. The etiology and pathogenesis of KBD are not fully understood, although research suggests that selenium deficiency and exposure to T-2 toxin are significant environmental risk factors. The initial pathological changes of KBD manifest as necrosis of deep chondrocytes, dedifferentiation of chondrocytes, excessive apoptosis of chondrocytes, and subsequent disruption of extracellular matrix metabolism. However, the precise pathogenic mechanisms of chondrocyte damage in KBD remain incompletely understood. Ferroptosis is a unique form of programmed cell death triggered by iron-dependent lipid peroxide accumulation. It has been shown to contribute to cartilage damage and chondrocyte death in various osteoarticular conditions, particularly osteoarthritis (OA). Notably, KBD not only exhibits clinical and pathological similarities with OA, but also indicates a potential association with ferroptosis in morphological and molecular similarities. Additionally, the environmental risk factors T-2 toxin exposure and selenium deficiency are also significant contributors to ferroptosis. Consequently, it is plausible to postulate that environmental risk factors may trigger ferroptosis, leading to the initiation of cartilage damage in KBD. Our hypothesis can be verified through both in vitro and in vivo experiments. Chondrocyte injury induced by ferroptosis may be a novel finding in KBD, which is important for clarifying its etiology and developing effective therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

39. Extracellular Vesicles Derived from Selenium-Deficient MAC-T Cells Aggravated Inflammation and Apoptosis by Triggering the Endoplasmic Reticulum (ER) Stress/PI3K-AKT-mTOR Pathway in Bovine Mammary Epithelial Cells

Author

Yu Chen, Xiangqian Zhang, Jing Yang, Wen Feng, Ganzhen Deng, Shiwen Xu, and Mengyao Guo

Subjects

selenium deficiency, extracellular vesicles, endoplasmic reticulum stress, mastitis, Therapeutics. Pharmacology, RM1-950

Abstract

Selenium (Se) deficiency disrupts intracellular REDOX homeostasis and severely deteriorates immune and anti-inflammatory function in high-yielding periparturient dairy cattle. To investigate the damage of extracellular vesicles derived from Se-deficient MAC-T cells (SeD-EV) on normal mammary epithelial cells, an in vitro model of Se deficiency was established. Se-deficient MAC-T cells produced many ROS, promoting apoptosis and the release of inflammatory factors. Extracellular vesicles were successfully isolated by ultrahigh-speed centrifugation and identified by transmission electron microscopy, particle size analysis, and surface markers (CD63, CD81, HSP70, and TSG101). RNA sequencing was performed on exosomal RNA. A total of 9393 lncRNAs and 63,155 mRNAs transcripts were identified in the SeC and SeD groups, respectively, of which 126 lncRNAs and 955 mRNAs were differentially expressed. Furthermore, SeD-EV promoted apoptosis of normal MAC-T cells by TUNEL analysis. SeD-EV significantly inhibited Bcl-2, while Bax and Cleaved Caspase3 were greatly increased. Antioxidant capacity (CAT, T-AOC, SOD, and GSH-Px) was inhibited in SeD-EV-treated MAC-T cells. Additionally, p-PERK, p-eIF2α, ATF4, CHOP, and XBP1 were all elevated in MAC-T cells supplemented with SeD-EV. In addition, p-PI3K, p-Akt, and p-mTOR were decreased strikingly by SeD-EV. In conclusion, SeD-EV caused oxidative stress, thus triggering apoptosis and inflammation through endoplasmic reticulum stress and the PI3K-Akt-mTOR signaling pathway, which contributed to explaining the mechanism of Se deficiency causing mastitis.

Published

2023

40. MiR-129-3p regulates ferroptosis in the liver of Selenium-deficient broilers by targeting SLC7A11

Author

Kaixin Zhang, Xuedie Gu, Yu Xia, Xiaochun Zhao, Ahmed Khoso Pervez, and Shu Li

Subjects

selenium deficiency, ferroptosis, miR-129-3p, SLC7A11, broiler liver, Animal culture, SF1-1100

Abstract

ABSTRACT: Selenium (Se) has been proven to be an essential trace element for organism. Se deficiency in poultry can cause widespread damage, such as exudative diathesis. The liver is not only the main organ of metabolism, but also one of the organs with high Se content in organism. Recent studies have shown that solute carrier family 7 member 11 (SLC7A11) plays a key role in the negative regulation of ferroptosis. In order to explore the mechanism of Se deficiency induces liver ferroptosis in broilers, and the role of microRNAs (miRNAs) in this process, we divided broilers into 2 groups: control group (0.2 mg/kg Se) and Se deficiency group (0.03 mg/kg Se). Hematoxylin-Eosin staining detected liver tissue damage in broilers. Predicted and verified the targeting relationship between miR-129-3p and SLC7A11 through miRDB and dual luciferase report experiments. The genes related to ferroptosis were detected by qRT-PCR and Western Blot. The results showed that the expression level of miR-129-3p mRNA in Se-deficient liver was significantly increased. To understand whether the miR-129-3p/SLC7A11 axis could involve in the process of ferroptosis, our further research showed that overexpression of miR-129-3p could reduce the expression of SLC7A11 and its downstream GCL, GSS, and GPX4, thereby inducing ferroptosis. These data indicates that miR-129-3p affected ferroptosis under Se deficiency conditions through the SLC7A11 pathway. Our research provides a new perspective for the mechanism of Se deficiency on the liver damage.

Published

2023

41. Oxidation states and thermoelectric properties of BiCuSeO bulks fabricated under Bi or Se deficiencies in the nominal composition.

Author

Ishizawa, Mamoru, Yasuzato, Yuki, Fujishiro, Hiroyuki, Naito, Tomoyuki, Katsui, Hirokazu, and Goto, Takashi

Subjects

*OXIDATION states, *THERMOELECTRIC effects, *BISMUTH, *SELENIUM deficiency, *ELECTRICAL resistivity, *X-ray photoelectron spectroscopy

Abstract

We have fabricated the BiCuSeO bulks using raw materials with Bi or Se deficiencies in the nominal composition and investigated crystallographic, chemical compositional, and thermoelectric properties. Owing to the Bi or Se deficiencies in the starting composition, excessive elements and related compounds were deposited as impurity phases and the matrix phase is nearly the stoichiometric BiCuSeO phase. The electrical resistivity, ρ(T), of the bulks decreases and thermoelectric power, S(T), also decreases with increasing the contents of Bi or Se deficiencies in the starting composition in spite of the stoichiometric matrix phase. These results strongly suggest that, from the X-ray photoelectron spectroscopy measurements, the actual oxidation states of Bi and Cu deviate from the formal valences of stoichiometric Bi3+Cu1+Se2−O2−. The introduction of a small amount of Bi and Se vacancies is also suggested. As a result, mobile carriers are introduced and the ρ and S values are changed. The maximum thermoelectric dimensionless figure of merit of ZT = 0.60 was achieved at 773 K for the Bi1-xCuSeO samples (x =0.025 and 0.05) in the starting composition. These results are in clear contrast with the reported results for the Cu deficiency bulks. Using these results, we propose charge valence equations and the origin of the carriers in the present BiCuSeO bulks and discuss the influence of created carriers on the thermoelectric properties. [ABSTRACT FROM AUTHOR]

Published

2018

42. Integrative analysis of multiomics data identifies selenium-related gene ALAD associating with keshan disease.

Author

Huang, Jichang, Zheng, Chenqing, Luo, Rong, Cao, Xin, Liu, Mingjiang, Gu, Qingquan, Li, Feng, Li, Jinshu, Wu, Xiushan, Yang, Zhenglin, Shen, Xia, and Li, Xiaoping

Subjects

*CARDIAC hypertrophy, *DATA analysis, *SODIUM selenite, *DILATED cardiomyopathy, *ANGIOTENSIN II

Abstract

Keshan disease is an endemic fatal dilated cardiomyopathy that can cause heart enlargement, heart failure, and cardiogenic death. Selenium deficiency is considered to be the main cause of Keshan disease. However, the molecular mechanism underlying Keshan disease remains unclear. Our whole-exome sequencing from 68 patients with Keshan disease and 100 controls found 199 candidate genes by gene-level burden tests. Interestingly, using multiomics data, the selenium-related gene ALAD (δ-aminolevulinic acid dehydratase) was the only candidate causative gene identified by three different analysis approaches. Based on single-cell transcriptome data, ALAD was highly expressed in cardiomyocytes and double mutations of human ALAD dramatically reduced its enzyme activity in vitro compared to negative control. Functional analysis of ALAD inhibition in mice resulted in a Keshan phenotype with left ventricular enlargement and cardiac dysfunction, whereas administration of sodium selenite markedly reversed the changes caused by ALAD inhibition. In addition, sodium selenite reversed Keshan phenotypes by affecting energy metabolism and mitochondrial function in mice as shown by the transcriptomic and proteomic data and the ultrastructure of cardiac myocytes. Our findings are the first to demonstrate that the selenium-related gene ALAD is essential for cardiac function by maintaining normal mitochondrial activity, providing strong molecular evidence supporting the hypothesis of selenium deficiency in Keshan disease. These results identified ALAD as a novel target for therapeutic intervention in Keshan disease and Keshan disease-related dilated cardiomyopathy. Blood samples were collected and analyzed with whole-exome sequencing from 68 patients with Keshan disease and 100 healthy individuals, and the selenium-related gene ALAD is the only candidate pathogenic gene identified by three different analysis approaches. The inhibition of ALAD in mice promoted left ventricular enlargement and cardiac dysfunction, but the addition of sodium selenite remarkably reserved the changes caused by inhibition of ALAD. Our data showed that a large number of proteins associated with energy metabolism were upregulated and mitochondrial function was impaired by ALAD inhibition, while widespread upregulated proteins were returned to normal expression with the addition of sodium selenite. [Display omitted] • Selenium-related gene ALAD is a novel target for therapeutic intervention in Keshan disease. • ALAD inhibition in mice resulted in left ventricular enlargement and cardiac dysfunction, and sodium selenite reversed KD phenotypes. [ABSTRACT FROM AUTHOR]

Published

2022

43. Selenium-sensitive histone deacetylase 2 is required for forkhead box O3A and regulates extracellular matrix metabolism in cartilage.

Author

Zhao, Yitong, Guo, Yuanxu, Sun, Mengyao, Hussion, Safdar, Zheng, Ying, Huang, Huang, Huo, Xinyu, Zhao, Yutong, Zhang, Fujun, Han, Yan, Ning, Qilan, Xu, Peng, Sun, Jian, and Lu, Shemin

Abstract

Introduction: Selenium (Se) as well as selenoproteins are vital for osteochondral system development. Se deficiency (SeD) has a definite impact on the expression and activity of histone deacetylases (HDACs). Abnormal expression of some HDACs affects cartilage development. This current study aims to explore the relationship between differentially expressed HDACs and cartilage development, especially extracellular matrix (ECM) homeostasis maintenance, under SeD conditions. Materials and methods: Dark Agouti rats and C28/I2 cell line under SeD states were used to detect the differently expressed HDAC by RT-qPCR, western blotting and IHC staining. Meanwhile, the biological roles of the above HDAC in cartilage development and homeostasis maintenance were confirmed by siRNA transfection, western blotting, RNA sequence and inhibitor treatment experiments. Results: HDAC2 exhibited lower expression at protein level in both animals and chondrocytes during SeD condition. The results of cell-level experiments indicated that forkhead box O3A (FOXO3A), which was required to maintain metabolic homeostasis of cartilage matrix, was reduced by HDAC2 knockdown. Meanwhile, induced HDAC2 was positively associated with FOXO3A in rat SeD model. Meanwhile, knockdown of HDAC2 and FOXO3A led to an increase of intracellular ROS level, which activated NF-κB pathway. Se supplementary significantly inhibited the activation of NF-κB pathway with IL-1β treatment. Conclusion: Our results suggested that low expression of HDAC2 under SeD condition increased ROS content by decreasing FOXO3A in chondrocytes, which led to the activation of NF-κB pathway and ECM homeostasis imbalance. [ABSTRACT FROM AUTHOR]

Published

2022

44. Selenium deficiency aggravates bisphenol A‐induced autophagy in chicken kidney through regulation of nitric oxide and adenosine monophosphate activated protein kinase/mammalian target of rapamycin signaling pathway.

Author

Chen, Huijie, Zhang, Yue, Qi, Xue, Shi, Xu, Huang, Xiaodan, and Xu, Shi‐Wen

Subjects

RAPAMYCIN, SELENOPROTEINS, NITRIC oxide regulation, ADENOSINE monophosphate, PROTEIN kinases, CELLULAR signal transduction, AUTOPHAGY

Abstract

Bisphenol A (BPA), a phenolic compound, is harmful to humans and animals as its residue in the water threatens multiple organs, especially the kidney. Low selenium (Se) diets are consumed in many regions of the world, and poor Se status has exacerbating effect on toxicity of several environmental chemicals. Here, we described the discovery path of Se deficiency aggravation on autophagy in BPA treated chicken kidney through regulating nitric oxide (NO) and adenosine monophosphate activated protein kinase (AMPK)/mammalian target of rapamycin (mTOR) signaling pathways. The actual dietary Se intake for chickens was 0.30 mg/kg in control group and 0.03 mg/kg in Low‐Se group, and BPA exposure concentration for chickens was 0.05 g/kg. Chicken embryo kidney (CEK) cells were used in vitro and the BPA exposure concentration for CEK cells was 150 nM. We found that BPA significantly increased levels of NO and inducible nitric oxide synthase, activated AMPK/mTOR signaling pathways, thereby triggering p62/LC3/Beclin1 signaling, resulting in formations of autophagosome and autolysosome, and finally stimulating autophagy in the chicken kidney. Additionally, Se deficiency promoted the occurrence of autophagy in BPA‐treated kidneys. Altogether, our findings showed that Se deficiency exacerbates BPA‐induced renal autophagy in chickens via regulation of NO and AMPK/mTOR signaling pathways. These findings will improve our understandings of the mechanisms of nephrotoxicity of BPA and detoxification by Se in chickens. In addition, further work is required to determine if Se status of exposed populations needs to be considered in future epidemiological assessments. [ABSTRACT FROM AUTHOR]

Published

2022

45. Progress of Selenium Deficiency in the Pathogenesis of Arthropathies and Selenium Supplement for Their Treatment.

Author

Deng, Huan, Liu, Haobiao, Yang, Zhihao, Bao, Miaoye, Lin, Xue, Han, Jing, and Qu, Chengjuan

Abstract

Selenium, an essential trace element for human health, exerts an indispensable effect in maintaining physiological homeostasis and functions in the body. Selenium deficiency is associated with arthropathies, such as Kashin-Beck disease, rheumatoid arthritis, osteoarthritis, and osteoporosis. Selenium deficiency mainly affects the normal physiological state of bone and cartilage through oxidative stress reaction and immune reaction. This review aims to explore the role of selenium deficiency and its mechanisms existed in the pathogenesis of arthropathies. Meanwhile, this review also summarized various experiments to highlight the crucial functions of selenium in maintaining the homeostasis of bone and cartilage. [ABSTRACT FROM AUTHOR]

Published

2022

46. Thyroid dysfunction due to trace element deficiency-not only selenium but also zinc.

Author

Nagano K, Motomura Y, Bando H, Yamamoto M, Kanie K, Yoshino K, Hirota Y, Yamada T, Takahashi M, Fukuoka H, and Ogawa W

Subjects

Humans, Male, Middle Aged, Dietary Supplements, Hypothyroidism blood, Hypothyroidism diet therapy, Hypothyroidism etiology, Thyrotropin blood, Selenium administration & dosage, Selenium blood, Selenium deficiency, Trace Elements deficiency, Trace Elements blood, Zinc administration & dosage, Zinc blood, Zinc deficiency

Abstract

Introduction: Levels of serum selenium (Se) and zinc (Zn) decrease when total parental nutrition (TPN) is administered without trace element supplementation for just a few weeks. These trace elements are involved in thyroid hormone metabolism and their deficiencies cause thyroid dysfunction. However, there have been few reports on the details of its clinical course., Case Presentation: A 50-year-old man presented with thyroid dysfunction due to Se and Zn deficiency. He had an approximately 70-cm residual small intestine after undergoing intestinal resection and he received TPN without trace element supplementation for one and a half months. Blood tests revealed high levels of thyroid-stimulating hormone (TSH) and free thyroxine (FT4) and low levels of free triiodothyronine (FT3). An abnormal pattern of thyroid function led to suspicion of Se deficiency. Se supplementation raised FT3 levels and lowered FT4 levels to within their respective reference ranges; however, subclinical hypothyroidism persisted with transient TSH elevation. We suspected that Zn deficiency also contributed to the hypothyroidism and, therefore, initiated Zn supplementation, which resulted in normalization of thyroid function., Discussion: Although thyroid dysfunction has been reported in many studies conducted on Se and Zn deficiencies, hormonal patterns vary between reports. Further accumulation of cases, including detailed data on nutritional status, would be of benefit to elucidate the clinical reality., Conclusion: It is important to consider Se and Zn deficiencies when TSH and FT4 levels are elevated. It should also be noted that transient TSH elevation may be observed with Se supplementation., (© 2024. The Author(s), under exclusive licence to Hellenic Endocrine Society.)

Published

2024

47. Preliminary investigations of plasma lipidome and selenium levels in adults with treated hypothyroidism and in healthy individuals without selenium deficiency.

Author

Błażewicz A, Wojnicka J, Grabrucker AM, Sosnowski P, Trzpil A, Kozub-Pędrak A, Szałaj K, Szmagara A, Grywalska E, and Skórzyńska-Dziduszko K

Subjects

Humans, Female, Male, Adult, Middle Aged, Lipids blood, Case-Control Studies, Selenium blood, Selenium deficiency, Lipidomics methods, Hypothyroidism blood

Abstract

The present preliminary study aimed to provide a targeted lipidomic analysis of Hashimoto (HT) and non-HT patients with well-controlled hypothyroidism as well as in healthy adults, and is the first to demonstrate the association of several components of the human lipidome with hypothyroidism in relation to the total plasma selenium content. All the patients and age-, sex-, and BMI-matched healthy controls met the very strict qualification criteria. Se levels were analyzed by ICP-MS, and lipidome studies were conducted using TQ-LC/MS. The 40 acylcarnitines, 90 glycerophospholipids, and 15 sphingomyelins were identified and quantified. PCaaC26:0 and PCaaC40:1 were negatively correlated with Se concentrations. Other lipids that were negatively correlated with Se concentrations but did not present significant differences between the three groups in the Kruskal-Wallis ANOVA test were PCaaC32:0, PCaeC30:0, PCaeC36:5, SMC18:0, and SM C18:1. In the multiple linear regression analyses, Se levels showed negative relationship, whereas different phosphatidylcholines: PCaaC24:0, PCaaC26:0, PCaeC30:1, PCaeC34:0, PCaeC36:4, PCaeC42:0 were positively associated with the presence of (H). Different lipidome components were identified in healthy and hypothyroid patients regardless of the cause of that condition. Studies on larger populations are needed to determine cause-and-effect relations and the potential mechanisms underlying these associations., Competing Interests: Declarations. Competing interests: The authors declare no competing interests. Institutional review board statement: The study was conducted in accordance with the Declaration of Helsinki, and approved by the Ethics Committee of the Medical University of Lublin (approval number KE-0254/7/2021). Informed consent: Informed consent was obtained from all subjects involved in the study., (© 2024. The Author(s).)

Published

2024

48. Probing Selenium-Deficient Chicken Spleen Th1/Th17 Differentiation Based on Selenoprotein W Targeting of PKM2/HIF1α.

Author

Wang X, Ding J, Chen K, Hu H, Huang B, Shi G, and Li S

Subjects

Animals, Pyruvate Kinase genetics, Pyruvate Kinase metabolism, Pyruvate Kinase immunology, Avian Proteins genetics, Avian Proteins metabolism, Avian Proteins immunology, Chickens genetics, Chickens immunology, Selenium deficiency, Selenium metabolism, Cell Differentiation, Th17 Cells immunology, Spleen immunology, Spleen metabolism, Th1 Cells immunology, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Hypoxia-Inducible Factor 1, alpha Subunit immunology, Selenoprotein W genetics, Selenoprotein W metabolism, Selenoprotein W immunology

Abstract

Selenium regulates the differentiation and function of immune cells mainly through selenoproteins. Selenoprotein W (SelW) has been shown to mitigate inflammatory bowel disease in mice by modulating the differentiation of helper T (CD4 + T) cell. Previous studies by our team have underscored SelW's critical role in safeguarding chicken spleens and splenic lymphocytes against inflammatory injury. However, research examining SelW's involvement in regulating CD4 + T cell differentiation in avian spleens remains scarce. Therefore, the selenium-deficient chicken model was constructed in this study. It was found that the spleen of selenium-deficient chickens showed significant inflammatory damage, accompanied by decreased SelW expression, diminished antioxidant capacity, heightened glycolysis, and an elevated count of Th1/Th17 cells. To elucidate the specific mechanism of SelW regulating Th1/Th17 cell differentiation, this study used molecular docking technology, fluorescence colocalization, and co-immunoprecipitation and initially confirmed the targeting relationship between SelW and pyruvate kinase M2 (PKM2). Subsequently, an in vitro model of SelW overexpression, knockdown, and TEPP-46 (PKM2 tetramer activator) cotreatment of chicken primary splenic lymphocytes was replicated. Our findings revealed that selenium deficiency triggers oxidative stress and promotes PKM2 nuclear translocation via SelW downregulation, which stabilizes HIF1α transcription in the nucleus, enhancing glycolysis and skewing chicken splenic CD4 + T cells toward the Th1/Th17 phenotype. Our study, for the first time, demonstrates the existence of an interaction between SelW and PKM2 in poultry, emphasizing SelW's paramount significance in CD4 + T cell differentiation, providing fresh perspectives on the contributions of selenoproteins to T cell biology and immune processes.

Published

2024

49. Selenoprotein o as a regulator of macrophage metabolism in selenium deficiency-induced lung inflammation.

Author

Du Y, Xia Y, Xu T, Hu H, He Y, Zhang M, and Li S

Subjects

Animals, Mice, Macrophages metabolism, Macrophages, Alveolar metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, DNA-Binding Proteins deficiency, Oxidative Phosphorylation, Mitochondria metabolism, Male, Transcription Factors metabolism, Transcription Factors genetics, Mice, Inbred C57BL, Gene Knockdown Techniques, Energy Metabolism, High Mobility Group Proteins, Selenium deficiency, Selenium metabolism, Selenoproteins metabolism, Selenoproteins genetics, Pneumonia metabolism, Pneumonia genetics, Pneumonia pathology

Abstract

Selenium (Se) deficiency induces an inflammatory response in the lungs, but the underlying mechanisms are unknown. Selenoprotein O (SelO) is the largest selenoprotein in terms of molecular weight, yet its potential biological functions have yet to be characterized. Our study revealed that Se deficiency leads to an imbalance in the expression of pro-inflammatory "M1" macrophages and anti-inflammatory "M2" macrophages in alveolar macrophages (AMs) and interstitial macrophages (IMs) and contributed to the development of lung inflammation. Through the analysis of differentially expressed selenoproteins, we identified SelO as a potential regulator of the imbalance in pulmonary macrophage polarization caused by Se deficiency. In vitro experiments showed that SelO knockdown enhanced the polarization of M1 macrophages while suppressing that of M2 macrophages. In addition, SelO knockdown reprogrammed macrophage metabolism to glycolysis, disrupting oxidative phosphorylation (OXPHOS). Mechanistically, SelO primarily targets mitochondrial transcription factor A (TFAM), which plays a crucial role in the transcription and replication of mitochondrial DNA (mtDNA) and is essential for mitochondrial biogenesis and energy metabolism. The deficiency of SelO affects TFAM, resulting in its uncontrolled degradation, which compromises mitochondrial function and energy metabolism. In summary, the findings presented here offer significant theoretical insights into the physiological functions of SelO., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

50. Genetic Determinants of Selenium Availability, Selenium-Response, and Risk of Polycystic Ovary Syndrome.

Author

Sharma P and Khetarpal P

Subjects

Female, Humans, Genetic Predisposition to Disease, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Risk Factors, Polycystic Ovary Syndrome genetics, Polycystic Ovary Syndrome metabolism, Selenium administration & dosage, Selenium deficiency, Selenium pharmacokinetics

Abstract

Selenium is a trace element and its deficiency has been associated with the risk of PCOS, a multifactorial syndrome that affects a large number of women worldwide. Several databases and literature were searched to find out genetic variants of the genes involved in selenium uptake, metabolism, and regulation which may be significantly associated with the risk of PCOS through Se-related pathways. Genes that require selenium for their biological actions to perform were also shortlisted. A total of eighteen significantly associated genes with forty-four variants were identified as candidate variants that could play a potential role in the modulation of PCOS risk among the study population. The genetic variant distribution data was available in-house and was obtained through a GWAS study of the North India population. In silico tools were applied to understand the functional impact of these variants. Three variants namely LDLR (rs2228671), TNF (rs1041981), and SAA2 (rs2468844) are strongly associated with PCOS risk and have a functional impact on encoded protein. Certain variants of Se uptake genes such as DIO1, GPX2, TXNRD1, DIO2 and GPX3 are also significantly associated with the risk of PCOS development. "C" allele of the Se transporter gene SELENOP (rs9686343) significantly increases PCOS risk. Other potential genes require selenium for their biological actions and are involved in the inflammatory, antioxidant response, and energy homeostasis signaling pathways. Thus, genetic variants of the population may affect the Se availability in the body. Also, deficiency of Se effects may get modulated due to underlying genetic polymorphism of Se-associated genes. This information may be helpful in dosage adjustment of Se supplementation for a population in order to get maximum benefits., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024