孕期摄入糖精会以性别依赖的方式破坏青春期子代大鼠的肠-脑轴葡萄糖稳态控制。
Gestational saccharin consumption disrupts gut-brain axis glucose homeostasis control in adolescent offspring rats in a sex-dependent manner.
作者信息
Pacheco-Sánchez Beatriz, Melgar-Locatelli Sonia, López-Merchán Raquel, Benítez-Marín María José, Blasco-Alonso Marta, González-Mesa Ernesto, Tovar Rubén, Rubio Pablo, Suárez Juan, Sanjuan Carlos, de Fonseca Fernando Rodríguez, Alén Francisco, de Ceglia Marialuisa, Rivera Patricia
机构信息
Unidad de Gestión Clínica de Salud Mental. Hospital Universitario de Málaga, 29010, Málaga, Spain.
Instituto de Investigación Biomédica de Málaga y Plataforma en Nanomedicina-IBIMA Plataforma BIONAND, Málaga, Spain.
出版信息
Biol Sex Differ. 2025 Jun 16;16(1):43. doi: 10.1186/s13293-025-00724-5.
BACKGROUND
Certain events that occur in early life, such as changes in nutrition, can promote structural and functional modifications in brain development, projecting to either short, medium, and/or long terms, resulting in metabolic programming. These effects depend on the timing, intensity, and duration of exposure, and are proposed to be the cause or contribute to chronic adult disorders. Recent studies have proposed that artificial non-nutritive sweeteners (NNS), such as saccharin, can be included as one of these developmental disruptors. Saccharin consumption during pregnancy is strongly discouraged, as it can cross through the placenta and accumulate in the fetus, potentially impacting metabolic control for life. However, the mechanisms underlying the metabolic syndrome induced by maternal NNS consumption during pregnancy are not well understood. Some studies suggest that NNS may affect sweet taste receptors in the adult's guts, leading to changes in the release of glucagon-like peptide-1 (GLP-1) and insulin. The objective of the study is to investigate whether maternal saccharin consumption during pregnancy affects the gut-brain connection, leading to alterations in insulin/GLP-1 signaling during neurodevelopment until adolescence.
METHODS
Pregnant rats were administered 0.1% saccharin in drinking water throughout gestation, and the main components of the insulin/GLP-1 signaling pathway were analyzed in the plasma, small intestine and hypothalamus of the offspring after weaning. Perinatal exposure to saccharin was linked to disrupted glucose homeostasis and insulin sensitivity in both male and female offspring.
RESULTS
We identified sex-dependent mechanisms that affected GLP-1 signaling in the intestine, associated with the expression of taste receptors and glucose transporters. These alterations affected the gut-brain axis and disrupted hypothalamic signaling associated with glucose regulation and food intake, primarily involving the GLP-1, leptin, and insulin signaling pathways.
CONCLUSIONS
These results suggest that developmental NNS exposure might contribute to the growing alteration in energy metabolism.
背景
早年发生的某些事件,如营养变化,可促进大脑发育中的结构和功能改变,这些改变具有短期、中期和/或长期影响,从而导致代谢编程。这些影响取决于接触的时间、强度和持续时间,并被认为是成人慢性疾病的病因或促成因素。最近的研究表明,人工非营养性甜味剂(NNS),如糖精,可被视为这些发育干扰因素之一。强烈不建议孕期食用糖精,因为它可穿过胎盘并在胎儿体内蓄积,可能影响一生的代谢控制。然而,孕期母体摄入NNS所致代谢综合征的潜在机制尚不清楚。一些研究表明,NNS可能影响成人肠道中的甜味受体,导致胰高血糖素样肽-1(GLP-1)和胰岛素释放发生变化。本研究的目的是调查孕期母体摄入糖精是否会影响肠-脑连接,导致神经发育直至青春期期间胰岛素/GLP-1信号传导发生改变。
方法
在整个妊娠期,给怀孕大鼠饮用含0.1%糖精的水,并在断奶后分析子代血浆、小肠和下丘脑胰岛素/GLP-1信号通路的主要成分。围产期接触糖精与雄性和雌性子代的葡萄糖稳态和胰岛素敏感性受损有关。
结果
我们确定了影响肠道中GLP-1信号传导的性别依赖性机制,这与味觉受体和葡萄糖转运蛋白的表达有关。这些改变影响了肠-脑轴,并破坏了与葡萄糖调节和食物摄入相关的下丘脑信号传导,主要涉及GLP-1、瘦素和胰岛素信号通路。
结论
这些结果表明,发育过程中接触NNS可能导致能量代谢的改变不断增加。
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