Pentachlorophenol Exposure Delays the Recovery of Colitis in Association With Altered Gut Microbiota and Purine Metabolism

IF 4.4 3区 医学 Q2 ENVIRONMENTAL SCIENCES Environmental Toxicology Pub Date : 2024-09-17 DOI:10.1002/tox.24420
Wenzheng Li, Jing Mu, Shanhong Ni, Wenlong Pei, Li Wan, Xin Wu, Jun Zhu, Zhan Zhang, Lei Li
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Abstract

Pentachlorophenol (PCP) was used widely as preservative and biocide and has been banned due to with various harmful effects, such as carcinogenicity and teratogenicity. However, the effects of PCP on colitis induced by dextrose sodium sulfate (DSS) remain largely unknown. Serum metabolomics and gut microbiota were investigated to elucidate the underlying mechanisms. Exposure to 20 μg/L PCP aggravated DSS-induced body weight loss, colon shortening, severe histological injuries, and upregulation of TNFα, iNOS, IL-1β, and IL-6. Serum metabolomics showed that both DSS and PCP could significantly disrupted tryptophan metabolism in normal mice. Interestingly, PCP exposure intensified the disturbance in purine metabolism but not tryptophan metabolism caused by DSS. Quantitative analysis of tryptophan and metabolites further confirmed that PCP exposure significantly increased the serum contents of serotonin, adenine, guanine, guanosine, inosine monophosphate (IMP), inosine, and hypoxanthine in DSS-treated mice. The overall gut microbial community was significantly modified by PCP and DSS treatment alone. Rikenellaceae_RC9_Gut_group, Colidextribacter, and Desulfovibrio were more abundant in colitis mice following PCP exposure. Further integrative analysis of differential bacteria and purine metabolites highlighted a significant correlation between Desulfovibrio and several purine metabolites, including guanine, guanosine, hypoxanthine, IMP, and inosine. Adenosine ribonucleotides de novo biosynthesis, inosine-5′-phosphate biosynthesis I, and urate biosynthesis/inosine 5′-phosphate degradation pathways were depleted in colitis mice upon PCP treatment. Taken together, PCP exposure delayed the recovery of colitis induced by DSS in association with altered gut microbiota and serum metabolites, which were enriched in tryptophan and purine metabolism.

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暴露于五氯苯酚会延迟结肠炎的恢复,这与肠道微生物群和嘌呤代谢的改变有关
五氯苯酚(PCP)曾被广泛用作防腐剂和杀菌剂,由于具有致癌和致畸等多种有害影响而被禁用。然而,五氯苯酚对葡萄糖硫酸钠(DSS)诱导的结肠炎的影响在很大程度上仍然未知。研究人员对血清代谢组学和肠道微生物群进行了调查,以阐明其潜在机制。暴露于 20 μg/L 五氯苯酚会加重 DSS 诱导的体重下降、结肠缩短、严重组织学损伤以及 TNFα、iNOS、IL-1β 和 IL-6 的上调。血清代谢组学研究表明,DSS和五氯苯酚都会严重破坏正常小鼠的色氨酸代谢。有趣的是,暴露于五氯苯酚会加剧嘌呤代谢紊乱,但不会加剧DSS引起的色氨酸代谢紊乱。色氨酸和代谢物的定量分析进一步证实,暴露于五氯苯酚会显著增加经二硫代二苯胺处理的小鼠血清中的血清素、腺嘌呤、鸟嘌呤、鸟苷、单磷酸肌苷(IMP)、肌苷和次黄嘌呤的含量。单用五氯苯酚和二硫代二苯酚处理小鼠时,整个肠道微生物群落会发生显著变化。接触五氯苯酚后,结肠炎小鼠体内的 Rikenellaceae_RC9_Gut_group、Colidextribacter 和 Desulfovibrio 的数量更多。对不同细菌和嘌呤代谢物的进一步综合分析表明,脱硫弧菌与几种嘌呤代谢物(包括鸟嘌呤、鸟苷、次黄嘌呤、IMP 和肌苷)之间存在显著的相关性。五氯苯酚治疗后,结肠炎小鼠体内的腺苷核糖核苷酸从头生物合成、肌苷-5′-磷酸生物合成 I 和尿酸盐生物合成/肌苷-5′-磷酸降解途径均出现衰竭。综上所述,暴露于五氯苯酚会延缓DSS诱导的结肠炎的恢复,同时肠道微生物群和血清代谢物也会发生变化,而色氨酸和嘌呤代谢物则会富集。
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来源期刊
Environmental Toxicology
Environmental Toxicology 环境科学-毒理学
CiteScore
7.10
自引率
8.90%
发文量
261
审稿时长
4.5 months
期刊介绍: The journal publishes in the areas of toxicity and toxicology of environmental pollutants in air, dust, sediment, soil and water, and natural toxins in the environment.Of particular interest are: Toxic or biologically disruptive impacts of anthropogenic chemicals such as pharmaceuticals, industrial organics, agricultural chemicals, and by-products such as chlorinated compounds from water disinfection and waste incineration; Natural toxins and their impacts; Biotransformation and metabolism of toxigenic compounds, food chains for toxin accumulation or biodegradation; Assays of toxicity, endocrine disruption, mutagenicity, carcinogenicity, ecosystem impact and health hazard; Environmental and public health risk assessment, environmental guidelines, environmental policy for toxicants.
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