Chloride channel-3 regulates sodium-iodide symporter expression and localization in the thyroids of mice on a high-iodide diet.

IF 4 2区农林科学 Q2 NUTRITION & DIETETICS

Frontiers in Nutrition Pub Date : 2025-03-21 eCollection Date: 2025-01-01 DOI:10.3389/fnut.2025.1537221

Meisheng Yu, Zhiqin Deng, Ke Wang, Xiangzhong Zhang

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Abstract

Introduction: Certain chloride channels and H⁺/Cl^- antiporters, such as chloride channel 3 (ClC-3), are expressed at the apical pole of thyrocytes, facilitating iodide (I^-) efflux. However, the relationship between ClC-3 and I^- uptake remains unclear. Additionally, whether ClC-3 and reactive oxygen species (ROS) regulate sodium-iodide symporter (NIS) expression and localization under excessive I^- conditions remain underexplored.

Methods: The expression and localization of ClC-3 in wild-type (WT), ClC-3 overexpression (OE) and ClC-3 knockout (KO) were detected by Western blotting (WB), immunohistochemistry and immunofluorescence, respectively. The ¹³¹I uptake of the thyroid was measured by thyroid function instrument. The expression and localization of NIS in normal and high iodide diet were detected, respectively. The role of ROS in the regulation of NIS by ClC-3 was observed.

Results: ClC-3 expressions in thyrocytes were primarily localized to the basolateral and lateral membranes, in both ClC-3 OE and WT mice groups under normal I^- conditions. I^- uptake was significantly higher in WT and ClC-3 OE mice than in the ClC-3 KO mice under normal I^- conditions. The ClC-3 OE group exhibited a higher number of thyroid follicles with elevated NIS expression in the basolateral and lateral membranes than the WT and KO groups. In the ClC-3 KO group, the NIS was predominantly localized in the cytoplasm. In the WT group, NIS fluorescence intensity at the basolateral and lateral membranes increased after 48 h of excessive iodide exposure compared to 24 h. In ClC-3 OE mice, NIS, initially localized intracellularly after 24 h of excessive iodide exposure, was almost fully reintegrated into the basolateral and lateral membranes after 48 h. In contrast, in ClC-3 KO mice, NIS remained primarily cytoplasmic, with no significant change between 24 h and 48 h of I^- excess. ROS fluorescence intensity was significantly higher in the ClC-3 OE group than those in the WT and KO groups after 24 h of I^- excess. Pre-inhibition of ROS showed no significant differences in NIS localization or expression among the three groups after 24 h of I^- excess.

Discussion: These findings suggest that ClC-3 may regulate NIS function via ROS signaling under excessive iodide conditions.

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氯离子通道-3调节高碘饮食小鼠甲状腺中碘化钠同调体的表达和定位。

某些氯离子通道和H+/Cl-反转运蛋白，如氯离子通道3 (ClC-3)，在甲状腺细胞的顶极表达，促进碘离子（I-）外排。然而，ClC-3与I-摄取之间的关系尚不清楚。此外，在过量I-条件下，ClC-3和活性氧（ROS）是否调节碘化钠同调体（NIS）的表达和定位仍未得到充分研究。方法：分别采用Western blotting （WB）、免疫组织化学和免疫荧光法检测ClC-3在野生型（WT）、过表达型（OE）和敲除型（KO）组织中的表达和定位。用甲状腺功能仪测定甲状腺对碘的摄取。分别检测正常和高碘饮食中NIS的表达和定位。观察ROS在ClC-3调控NIS中的作用。结果：正常I-条件下，ClC-3 OE组和WT组甲状腺细胞中ClC-3的表达主要局限于基底外膜和外侧膜。在正常I条件下，WT和ClC-3 OE小鼠的I摄取明显高于ClC-3 KO小鼠。与WT和KO组相比，ClC-3 OE组基底膜和外侧膜中NIS表达升高的甲状腺滤泡数量更多。在ClC-3 KO组中，NIS主要定位于细胞质。在WT组中，与24 h相比，过量碘暴露48 h后基底外侧膜和外侧膜的NIS荧光强度增加。在ClC-3 OE小鼠中，过量碘暴露24 h后，NIS最初定位于细胞内，48 h后几乎完全重新整合到基底外膜和外膜中。相比之下，在ClC-3 KO小鼠中，NIS主要保持在细胞质中，在24 h和48 h的I-过量期间没有显著变化。I-过量24 h后，ClC-3 OE组ROS荧光强度明显高于WT和KO组。在I-过量24 h后，ROS预抑制各组间NIS的定位和表达无显著差异。讨论：这些发现表明，在过量碘化条件下，ClC-3可能通过ROS信号调节NIS功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Nutrition Agricultural and Biological Sciences-Food Science

CiteScore

5.20

自引率

8.00%

发文量

2891

审稿时长

12 weeks

期刊介绍： No subject pertains more to human life than nutrition. The aim of Frontiers in Nutrition is to integrate major scientific disciplines in this vast field in order to address the most relevant and pertinent questions and developments. Our ambition is to create an integrated podium based on original research, clinical trials, and contemporary reviews to build a reputable knowledge forum in the domains of human health, dietary behaviors, agronomy & 21st century food science. Through the recognized open-access Frontiers platform we welcome manuscripts to our dedicated sections relating to different areas in the field of nutrition with a focus on human health. Specialty sections in Frontiers in Nutrition include, for example, Clinical Nutrition, Nutrition & Sustainable Diets, Nutrition and Food Science Technology, Nutrition Methodology, Sport & Exercise Nutrition, Food Chemistry, and Nutritional Immunology. Based on the publication of rigorous scientific research, we thrive to achieve a visible impact on the global nutrition agenda addressing the grand challenges of our time, including obesity, malnutrition, hunger, food waste, sustainability and consumer health.