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发育过程中甲状腺激素激活的缺失是适应性产热永久性缺陷的基础。

Absence of thyroid hormone activation during development underlies a permanent defect in adaptive thermogenesis.

机构信息

Biological and Biomedical Sciences Program, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

Endocrinology. 2010 Sep;151(9):4573-82. doi: 10.1210/en.2010-0511. Epub 2010 Jul 21.

DOI:10.1210/en.2010-0511
PMID:20660060
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2940501/
Abstract

Type 2 deiodinase (D2), which is highly expressed in brown adipose tissue (BAT), is an enzyme that amplifies thyroid hormone signaling in individual cells. Mice with inactivation of the D2 pathway (D2KO) exhibit dramatically impaired thermogenesis in BAT, leading to hypothermia during cold exposure and a greater susceptibility to diet-induced obesity. This was interpreted as a result of defective acute activation of BAT D2. Here we report that the adult D2KO BAT has a permanent thermogenic defect that stems from impaired embryonic BAT development. D2KO embryos have normal serum T3 but due to lack of D2-generated T3 in BAT, this tissue exhibits decreased expression of genes defining BAT identity [i.e. UCP1, PGC-1alpha and Dio2 (nonfunctional)], which results in impaired differentiation and oxidative capacity. Coinciding with a reduction of these T3-responsive genes, there is oxidative stress that in a cell model of brown adipogenesis can be linked to decreased insulin signaling and decreased adipogenesis. This discovery highlights the importance of deiodinase-controlled thyroid hormone signaling in BAT development, where it has important metabolic repercussions for energy homeostasis in adulthood.

摘要

2 型脱碘酶(D2)在棕色脂肪组织(BAT)中高度表达,是一种在单个细胞中放大甲状腺激素信号的酶。D2 途径失活的小鼠(D2KO)在 BAT 中表现出明显受损的产热作用,导致在暴露于寒冷时体温过低,并更容易发生饮食诱导的肥胖。这被解释为 BAT D2 的急性激活缺陷的结果。在这里,我们报告说,成年 D2KO BAT 存在永久性的产热缺陷,这源于胚胎 BAT 发育受损。D2KO 胚胎的血清 T3 正常,但由于 BAT 中缺乏 D2 产生的 T3,该组织中定义 BAT 特性的基因表达减少[即 UCP1、PGC-1alpha 和 Dio2(无功能)],导致分化和氧化能力受损。与这些 T3 反应基因的减少同时发生的是氧化应激,在棕色脂肪形成的细胞模型中,这种应激与胰岛素信号降低和脂肪生成减少有关。这一发现强调了脱碘酶控制的甲状腺激素信号在 BAT 发育中的重要性,它对成年期的能量稳态具有重要的代谢影响。

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