Maternal probiotic supplementation protects against PBDE-induced developmental, behavior and metabolic reprogramming in a sexually dimorphic manner: Role of gut microbiome.

IF 4.8 2区 医学 Q1 TOXICOLOGY Archives of Toxicology Pub Date : 2024-11-09 DOI:10.1007/s00204-024-03882-4
Maximillian E Denys, Elena V Kozlova, Rui Liu, Anthony E Bishay, Elyza A Do, Varadh Piamthai, Yash V Korde, Crystal N Luna, Artha A Lam, Ansel Hsiao, Margarita Currás-Collazo
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Abstract

Polybrominated diphenyl ethers (PBDEs) are endocrine-disrupting persistent organic pollutants (POPs) used as flame retardants in a wide range of commercial applications. We have previously reported neurobehavioral and metabolic reprogramming produced by developmental PBDEs. PBDEs perturb the microbiome, an influencer of life-long health, while probiotic supplementation with Limosilactobacillus reuteri (LR) can avert neurobehavioral and endocrine disruption. We, therefore, tested the hypothesis that perinatal maternal LR supplementation would protect gut microbiome richness and diversity, developmental milestones, adult neurobehavior and metabolic homeostasis in PBDE-exposed offspring. C57BL/6N dams were orally exposed to a commercial penta-mixture of PBDEs, DE-71, at 0.1 mg/kg/day, or corn oil vehicle (VEH/CON) during gestation and lactation. Mice offspring received DE-71 or VEH/CON with or without co-administration of LR (ATCC-PTA-6475) indirectly via their mother from gestational day (GD) 0 until postnatal day (P)21 (Cohort 1), or continued to receive LR directly from P22 through adulthood (Cohort 2). Results of fecal 16S rRNA sequencing indicated age- and sex-dependent effects of DE-71 on gut microbial communities. Maternal LR treatment protected against DE-71-induced reduction in α-diversity in P22 females and against β-diversity alterations in P30 males. In females, DE-71 changed the relative abundance of specific bacterial taxa, such as Tenericutes and Cyanobacteria (elevated) and Deferribacterota (reduced). In males, several Firmicutes taxa were elevated, while Proteobacteria, Chlamydiae, and several Bacteroidota taxa were reduced. The number of disrupted taxa normalized by maternal LR supplementation was as follows: 100% in P22 females and 33% in males at P22 and 25% at P30. Maternal LR treatment protected against DE-71-induced delay of postnatal body weight gain in males and ameliorated the abnormal timing of incisor eruption in both sexes. Further, DE-71 produced exaggerated digging in both sexes as well as locomotor hyperactivity in females, effects that were mitigated by maternal LR only in females. Other benefits of LR therapy included normalization of glucose tolerance, insulin-to-glucose ratio and plasma leptin in adult DE-71 females (Cohort 2). This study provides evidence that probiotic supplementation can mitigate POP-induced reprogramming of neurodevelopment, adult neurobehavior, and glucose metabolism in association with modified gut microbial community structure in a sex-dependent manner.

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母体补充益生菌可防止多溴联苯醚诱导的发育、行为和代谢重编程,且具有性别双态性:肠道微生物组的作用
多溴联苯醚(PBDEs)是一种具有内分泌干扰作用的持久性有机污染物(POPs),作为阻燃剂被广泛应用于商业领域。我们以前曾报道过发育中的多溴联苯醚会导致神经行为和代谢重编程。多溴联苯醚会扰乱微生物组,而微生物组是终生健康的影响因素,而补充饲用Limosilactobacillus reuteri(LR)益生菌可以避免神经行为和内分泌紊乱。因此,我们测试了围产期母体补充 LR 可保护暴露于多溴联苯醚的后代的肠道微生物组丰富度和多样性、发育里程碑、成年神经行为和代谢平衡的假设。在妊娠期和哺乳期,C57BL/6N 母鼠口服 0.1 毫克/千克/天的商用五溴二苯醚混合物 DE-71 或玉米油载体(VEH/CON)。小鼠后代从妊娠期(GD)0到出生后(P)21天(队列1)接受DE-71或VEH/CON,同时或不同时接受LR(ATCC-PTA-6475),或从P22到成年期继续直接接受LR(队列2)。粪便 16S rRNA 测序结果表明,DE-71 对肠道微生物群落的影响与年龄和性别有关。母体LR处理可防止DE-71诱导的P22雌性肠道微生物群落α多样性的减少,并防止P30雄性肠道微生物群落β多样性的改变。在雌性中,DE-71改变了特定细菌类群的相对丰度,如半知菌纲和蓝细菌纲(升高)和去铁杆菌纲(降低)。在雄性细菌中,几个固氮菌类群的相对丰度升高,而变形杆菌、衣原体和几个类杆菌群的相对丰度降低。根据母体 LR 补充情况归一化的紊乱分类群数量如下:雌性和雄性在 P22 和 P30 分别为 100% 和 33%。母体LR处理可防止DE-71引起的雄性出生后体重增加延迟,并改善雌雄两性门牙萌出时间的异常。此外,DE-71在雌雄幼鼠中都会产生夸张的挖掘现象,并导致雌鼠运动机能亢进。LR疗法的其他益处还包括使成年DE-71雌鼠(队列2)的葡萄糖耐量、胰岛素与葡萄糖比率和血浆瘦素恢复正常。本研究提供的证据表明,补充益生菌可缓解持久性有机污染物诱导的神经发育、成年神经行为和葡萄糖代谢重编程,并以性别依赖的方式改变肠道微生物群落结构。
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来源期刊
Archives of Toxicology
Archives of Toxicology 医学-毒理学
CiteScore
11.60
自引率
4.90%
发文量
218
审稿时长
1.5 months
期刊介绍: Archives of Toxicology provides up-to-date information on the latest advances in toxicology. The journal places particular emphasis on studies relating to defined effects of chemicals and mechanisms of toxicity, including toxic activities at the molecular level, in humans and experimental animals. Coverage includes new insights into analysis and toxicokinetics and into forensic toxicology. Review articles of general interest to toxicologists are an additional important feature of the journal.
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