雌性小鼠通过抑制 Claudin 1 暴露于孕激素 17-OHPC 可诱发胃肠道功能紊乱并增加焦虑行为

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-06 DOI:10.1159/000538692
Liqin Zeng, Xiaozhuang Zhang, Qingjun Shen, Li He, Xiaohan Liu, Xiangyue Zeng, Qiaozhu Wu, Irene Ma, Shuangyun Zheng, Liqin Cheng, Ling Li, Paul Yao
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引用次数: 0

摘要

引言孕激素常用于口服避孕药和预防早产,会对大脑和胃肠道功能产生各种脱靶副作用,但其确切机制仍难以捉摸。本研究旨在探究孕激素对雌性小鼠胃肠道功能和焦虑样行为的影响。方法利用结肠干细胞探索孕激素己酸17-羟孕酮(17-OHPC)介导的抑制克劳丁-1(CLDN1)的机制,克劳丁-1对上皮细胞的完整性至关重要。染色质免疫沉淀和荧光素酶测定确定了 CLDN1 启动子上潜在的孕激素反应元件,随后对氧化应激和促炎细胞因子的释放进行了评估。操纵维生素 D 受体(VDR)或雌激素受体 β(ERβ)的表达阐明了它们在 17-OHPC 介导的效应中的作用。为了评估 17-OHPC 对雌性小鼠消化道功能障碍和焦虑样行为的影响,我们培育了肠道特异性 VDR 缺乏小鼠。结果通过表观遗传修饰和 VDR 与 CLDN1 启动子的分离,暴露于 17-OHPC 会抑制 CLDN1 的表达。此外,17-OHPC 加剧了氧化应激和促炎细胞因子的释放。VDR 敲除部分模拟了17-OHPC介导的效应,而VDR或ERβ的过表达部分恢复了17-OHPC介导的效应。结论 17-OHPC 通过 VDR 抑制 CLDN1 的表达,导致雌性小鼠消化道功能障碍,这与 17-OHPC 诱导的焦虑样行为不同。本研究揭示了孕激素暴露在诱导雌性小鼠焦虑样行为的同时对胃肠道的新机制和潜在负面影响。
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Exposure to Progestin 17-OHPC Induces Gastrointestinal Dysfunction through Claudin 1 Suppression in Female Mice with Increased Anxiety-Like Behaviors.
INTRODUCTION Progestin, commonly used in oral contraception and preventing preterm birth, elicits various off-target side effects on brain and gastrointestinal (GI) functions, yet the precise mechanisms remain elusive. This study aims to probe progestin's impact on GI function and anxiety-like behaviors in female mice. METHODS Colon stem cells were utilized to explore the mechanism underlying progestin 17-hydroxyprogesterone caproate (17-OHPC)-mediated suppression of claudin-1 (CLDN1), crucial for epithelial integrity. Chromatin immunoprecipitation and luciferase assays identified potential progestin-response elements on the CLDN1 promoter, with subsequent assessment of oxidative stress and pro-inflammatory cytokine release. Manipulation of vitamin D receptor (VDR) or estrogen receptor β (ERβ) expression elucidated their roles in 17-OHPC-mediated effects. Intestine-specific VDR deficient mice were generated to evaluate 17-OHPC's impact on GI dysfunction and anxiety-like behaviors in female mice. Additionally, gene expression was analyzed in various brain regions, including the amygdala, hypothalamus, and hippocampus. RESULTS Exposure to 17-OHPC suppressed CLDN1 expression via epigenetic modifications and VDR dissociation from the CLDN1 promoter. Furthermore, 17-OHPC intensified oxidative stress and proinflammatory cytokine release. VDR knockdown partly mimicked, while overexpression of either VDR or ERβ partly restored 17-OHPC-mediated effects. Intestinal VDR deficiency partly mirrored 17-OHPC-induced GI dysfunction, with minimal impact on 17-OHPC-mediated anxiety-like behaviors. CONCLUSIONS 17-OHPC suppresses CLDN1 expression through VDR, contributing to GI dysfunction in female mice, distinct from 17-OHPC-induced anxiety-like behaviors. This study reveals a new mechanism and potential negative impact of progestin exposure on the gastrointestinal tract, alongside inducing anxiety-like behaviors in female mice.
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