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Effect of Selenium Supplementation on Activity and mRNA Expression of Type 1 Deiodinase in Mice With Excessive Iodine Intake 被引量:5
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作者 XUE-FENG YANG XIAO-HUI HOU JIAN XW HUAI-LAN GUO CHEN-JIANG YING XIAO-YI CHEN XIU-FA SUN 《Biomedical and Environmental Sciences》 SCIE CAS CSCD 2006年第4期302-308,共7页
Objective To investigate the effect of selenium supplementation on the selenium status and selenoenzyme, especially the activity and mRNA expression of type 1 deiodinase (D1) in mice with excessive iodine (EI) int... Objective To investigate the effect of selenium supplementation on the selenium status and selenoenzyme, especially the activity and mRNA expression of type 1 deiodinase (D1) in mice with excessive iodine (EI) intake and to explore the mechanism of selenium intervention on iodine-induced abnormities. Methods Weanling female BALB/c mice were given tap water or 3 mg/L of iodine or supplemented with 0.5 mg/L or 1.0 mg/L of selenium in the presence of excessive iodine for 5 months. Selenium status, thyroid hormone level, hepatic and renal D 1 activity and mRNA expression were examined. Results Excessive iodine intake significantly decreased the selenium concentration in urine and liver, and the activity of glutathione peroxidase (GSH-Px) in liver. Meanwhile, serum total T4 (TT4) increased while serum total T3 (TT3) decreased. Hepatic D1 enzyme activity and mRNA expression were reduced by 33% and 86%, respectively. Renal D1 enzyme activity and mRNA were reduced by 30% and 55%, respectively. Selenium supplementation obviously increased selenium concentration, activity of GSH-Px and D1 as well as mRNA expression of D1. However, increasing the supplementation of Se from 0.5 to 1.0 mg/L did not further increase selenoenzyme activity and expression. Conclusion Relative selenium deficiency caused by excessive iodine plays an essential role in the mechanism of iodine-induced abnormalities. An appropriate dose of selenium supplementation exercises a beneficial intervention. 展开更多
关键词 Excessive iodine SELENIUM Glutathione peroxidase Type 1 deiodinase
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Biological Functions of Selenoprotein Iodothyronine Deiodinase and its Expression in Osteoarthritis 被引量:2
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作者 Xiaomei Ren Li Zhang +3 位作者 Bao Xin Qiling Liu Wenwen Qian Rongqiang Zhang 《Chinese Medical Sciences Journal》 CAS CSCD 2022年第2期142-150,共9页
Objective Iodothyronine deiodinases(DIOs)are important selenoproteins that play a key role in the bone and joint diseases.Osteoarthritis(OA)is the most prevalent joint disease especially in elders.This bioinformatic a... Objective Iodothyronine deiodinases(DIOs)are important selenoproteins that play a key role in the bone and joint diseases.Osteoarthritis(OA)is the most prevalent joint disease especially in elders.This bioinformatic analysis was performed to explore the role of DIOs in OA pathogenesis.Methods The biological functions of selenoprotein DIOs were analyzed by bioinformatic techniques,mcluding GenCLip 3.0,Database for Annotation,Visualization and Integrated Discovery(DAVID),STRING,Cytoscape,and Network Analyst.The expression of DIOs in the healthy individuals and OA patients was determined by mining OA-related microarray data in the gene expression omnibus(GEO)database of National Center for Biotechnology Information and performing a Meta-analysis of the data with Review Manager 5.3.Results Cluster analysis revealed that the function of the DIOs was associated with thyroid hormone receptor and iodothyronine;GO analysis showed that DIOs were mainly involved in biological processes,such as ethanol metabolism and phenol-containing compound metabolism and primarily involved in the cytochrome P450 metabolism of exogenous organisms and thyroid hormone signaling;SULT1A1 was the core node of the PPI network;miRNAs and thyroid hormones had some iterations with DIO1 and DI02;Meta-analysis showed that DIO3 expression was significantly up-regulated in OA patients(SMD=0.31,95%CI:0.03,0.59,P=0.03).Conclusions The main biological functions of DIOs were closely associated with the regulation of thyroid hormone.And the up-regulated expression of DIO3 may have crucial impact on the occurrence of OA. 展开更多
关键词 SELENOPROTEIN iodothyronine deiodinase OSTEOARTHRITIS
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The transcription of iodothyronine deiodinase genes is regulated by thyroid hormone receptor in the Pacific oyster Crassostrea gigas 被引量:1
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作者 HUANG Wen XU Fei +2 位作者 LI Li QUE Huayong ZHANG Guofan 《Journal of Oceanology and Limnology》 SCIE CAS CSCD 2019年第4期1317-1323,共7页
Thyroid hormones (THs) are indispensable for each phyla in Chordata, while their functions in the non-chordate invertebrates are indistinct. Studies on the TH system in non-chordate invertebrates are important for und... Thyroid hormones (THs) are indispensable for each phyla in Chordata, while their functions in the non-chordate invertebrates are indistinct. Studies on the TH system in non-chordate invertebrates are important for understanding the evolution of TH system and may be applied in aquaculture or biofouling control at the same time. Iodothyronine deiodinases are keys to studying the TH system, as they are critical enzymes in maintaining TH homeostasis by catalyzing the initiation and termination of the effects of thyroid hormone in vertebrates. Here, we report the primary physiological effects of T4, the outer ring deiodinase activity, and a similar transcription regulation of two oyster deiodinases by TH receptor (CgTR) in an invertebrate, Pacific oyster Crassostrea gigas. L-thyroxine (T4) may have an important physiological function in the oyster, suggested by the growth retardation effect of excessive T4 in umbo larvae stage. The outer ring deiodinase activity transforming T4 to T3 (3, 3', 5-triiodothyronine) was then detected in the Pacific oyster in vivo, which may be conducted by two oyster deiodinases (CgDx and CgDy). Transcription regulation of CgTR onto these two deiodinase genes was also verified by electrophoretic mobility shift assay and dual luciferase reporter assay in mammalian cells. These results contribute to a better understanding of the evolution of the TH system. 展开更多
关键词 iodothyronine DEIODINASE MOLLUSK THYROID hormone (TH) TH responsive elements
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Iodothyronine deiodinase gene analysis of the Pacific oyster Crassostrea gigas reveals possible conservation of thyroid hormone feedback regulation mechanism in mollusks 被引量:1
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作者 黄雯 许飞 +3 位作者 曲涛 李莉 阙华勇 张国范 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2015年第4期997-1006,共10页
Iodothyronine deiodinase catalyzes the initiation and termination of thyroid hormones(THs) effects, and plays a central role in the regulation of thyroid hormone level in vertebrates. In non-chordate invertebrates, on... Iodothyronine deiodinase catalyzes the initiation and termination of thyroid hormones(THs) effects, and plays a central role in the regulation of thyroid hormone level in vertebrates. In non-chordate invertebrates, only one deiodinase has been identified in the scallop C hlamys farreri. Here, two deiodinases were cloned in the Pacific oyster C rassostrea gigas( Cg Dx and C g Dy). The characteristic in-frame TGA codons and selenocysteine insertion sequence elements in the oyster deiodinase c DNAs supported the activity of them. Furthermore, seven orthologs of deiodinases were found by a tblastn search in the mollusk Lottia gigantea and the annelid C apitella teleta. A phylogenetic analysis revealed that the deiodinase gene originated from an common ancestor and a clade-specific gene duplication occurred independently during the differentiation of the mollusk, annelid, and vertebrate lineages. The distinct spatiotemporal expression patterns implied functional divergence of the two deiodinases. The expression of C g Dx and Cg Dy was influenced by L-thyroxine T4, and putative thyroid hormone responsive elements were found in their promoters, which suggested that the oyster deiodinases were feedback regulated by TH. Epinephrine stimulated the expression level of C g Dx and Cg Dy, suggesting an interaction effect between different hormones. This study provides the first evidence for the existence of a conserved TH feedback regulation mechanism in mollusks, providing insights into TH evolution. 展开更多
关键词 iodothyronine deiodinase Crassostrea gigas thyroid hormone (TH) CLONE expression analysis
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Type 1 iodothyronine deiodinase activity and mRNA expression in rat thyroid tissue with different iodine intakes 被引量:12
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作者 WANG Kun SUN Yi-na LIU Jia-yu YAN Yu-qin CHEN Zu-pei 《Chinese Medical Journal》 SCIE CAS CSCD 2006年第22期1899-1903,共5页
Background Type 1 deiodinase (D1) plays an important role in the metabolism of thyroid hormone and has close relationship with thyroid function. In this study we explore the effects of iodine intake on D1 activity a... Background Type 1 deiodinase (D1) plays an important role in the metabolism of thyroid hormone and has close relationship with thyroid function. In this study we explore the effects of iodine intake on D1 activity and its mRNA expression and its possible mechanism. Methods Forty-eight Wistar rats were randomly divided into six groups with 8 in each: low iodine (LI), normal iodine (NI), five-fold iodine (HI5), ten-fold iodine (HI10), fifty-fold iodine (HI50), one hundred-fold iodine (HI100) group. Three months, six months and twelve months after admistration of potassium iodate, they were sacrificed and thyroids were excised. The expression of D1 mRNA in the thyroid tissue was determined by RT-PCR and D1 activity was analyzed by ^125I-rT3 as substrate. The thyroid hormone was measured with radioimmunoassay method. Results Compared with NI group, D1 mRNA expression in LI groups slightly decreased, and D1 activity greatly increased. Both T3 and T4 in thyroid tissue significantly decreased, but the T3/T4 ratio increased. D1 mRNA expression decreased in all HI groups, and D1 activity was significantly lower in HI groups. There was a tendency of decrease in D 1 activity with increased doses of iodine intakes. There was no significant difference in T4 in thyroid tissue between HI groups and NI group, but a tendency of decrease in T3 level was found in all HI groups. Conclusions In the case of iodine deficiency, D 1 activity increased greatly in order to convert more T4 to T3. Excess iodine can inhibit both D1 mRNA expression and its activity to protect organism from being injured by excessive T3. 展开更多
关键词 Type 1 deiodinase iodine deficiency iodine excess thyroid hormone
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Developmental thyroid hormone action on pro-opiomelanocortin-expressing cells programs hypothalamic BMPR1A depletion and brown fat activation
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作者 Zhaofei Wu M.Elena Martinez +2 位作者 Victoria DeMambro Marie Francois Arturo Hernandez 《Journal of Molecular Cell Biology》 SCIE CAS CSCD 2022年第9期54-67,共14页
Thyroid hormone excess secondary to global type 3 deiodinase(DIO3)deficiency leads to increased locomotor activity and reduced adiposity,but also to concurrent alterations in parameters of the leptin-melanocortin syst... Thyroid hormone excess secondary to global type 3 deiodinase(DIO3)deficiency leads to increased locomotor activity and reduced adiposity,but also to concurrent alterations in parameters of the leptin-melanocortin system that would predict obesity.To distinguish the underlying contributions to the energy balance phenotype of Dlo3 deficiency,we generated mice with thyroid hormone excess targeted to pro-opiomelanocortin(POMC)-expressing cells via cell-specific DIO3 inactivation.These mice exhibit a male-specific phenotype of reduced hypothalamic Pomc expression,hyperphagia,and increased activity in brown adipose tissue,with adiposity and serum levels of leptin and thyroid hormones remained normal.These male mice also manifest a marked and widespread hypothalamic reduction in the expression of bone morphogenetic receptor 1a(BMPR1A),which has been shown to cause similar phenotypes when inactivated in PoMC-expressing cells.Our results indicate that developmental overexposure to thyroid hormone in PoMC-expressing cells programs energy balance mechanisms in a sexually dimorphic manner by suppressing adult hypothalamic BMPR1A expression. 展开更多
关键词 thyroid hormone type 3 deiodinase(DIO3) bone morphogenetic receptor 1a(BMPR1A) pro-opiomelanocortin(POMC) HYPERPHAGIA brown adipose tissue CORTICOSTERONE
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