[Pentosan polysulfate alleviates cyclophosphamide-induced interstitial cystitis/bladder pain syndrome in mice by modulating gut microbiota and bile acid metabolism].

Q3 Medicine

南方医科大学学报杂志 Pub Date : 2025-06-20 DOI:10.12122/j.issn.1673-4254.2025.06.16

Yuexuan Zhu, Zhangrui Zhu, Peng Wu

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引用次数: 0

Abstract

Objectives: To investigate the therapeutic efficacy and mechanism of pentosan polysulfate (PPS) for cyclophosphamide (CYP)-induced interstitial cystitis/bladder pain syndrome (IC/BPS) in mice.

Methods: Female C57BL/6 mice (6-8 weeks old) were randomized into control group, PPS treatment (25 mg/kg via gavage for 3 weeks) group, CYP treatment (3 separate intraperitoneal injections at 50 mg/kg in week 4), and CYP+PPS treatment group. Gut microbiota alterations of the mice were analyzed using 16S rDNA sequencing and non-targeted metabolomics. Fecal microbiota transplantation (FMT) was performed in CYP-treated recipient mice and those treated with both CYP and PPS. In the in vitro experiment, LPS-stimulated human bladder epithelial cells (SV-HUC-1) were used to assess the effects of deoxycholic acid (DCA) and TGR5 signaling inhibitor SBI-115 on barrier functions of bladder epithelial cells.

Results: PPS treatment significantly improved the mechanical pain thresholds, restored the urodynamic parameters, and attenuated bladder inflammation and barrier dysfunction in CYP-treated mice. Mechanistically, PPS enriched the abundance of Eubacterium xylanophilum and increased DCA levels in the intestines of CYP-treated mice. FMT experiments confirmed microbiota-dependent therapeutic effects of PPS, shown by reduced bladder pathology in the recipient mice treated with both CYP and PPS. In SV-HUC-1 cells, DCA obviously alleviated LPS-induced inflammation and barrier disruption, and treatment with SBI-115 abolished these protective effects of DCA.

Conclusions: PPS ameliorates IC/BPS in mice by remodeling gut microbiota to enhance DCA production and activate TGR5 signaling, suggesting a novel microbiota-bile acid-TGR5 axis that mediates the therapeutic effect of PPS and a therapeutic strategy for IC/BPS by targeting gut-bladder crosstalk.

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[聚硫酸戊聚糖通过调节肠道菌群和胆汁酸代谢减轻环磷酰胺诱导的小鼠间质性膀胱炎/膀胱痛综合征]。

目的：探讨聚硫酸戊聚糖（PPS）对环磷酰胺（CYP）致小鼠间质性膀胱炎/膀胱痛综合征（IC/BPS）的治疗作用及机制。方法：将雌性C57BL/6小鼠（6 ~ 8周龄）随机分为对照组、PPS治疗组（灌胃25 mg/kg，持续3周）、CYP治疗组（第4周分别腹腔注射3次，剂量为50 mg/kg）和CYP+PPS治疗组。使用16S rDNA测序和非靶向代谢组学分析小鼠肠道微生物群的变化。在CYP治疗和CYP和PPS联合治疗的小鼠中进行粪便微生物群移植（FMT）。体外实验采用lps刺激的人膀胱上皮细胞（SV-HUC-1），评估脱氧胆酸（DCA）和TGR5信号抑制剂SBI-115对膀胱上皮细胞屏障功能的影响。结果：PPS治疗明显改善了小鼠的机械痛阈，恢复了尿动力学参数，减轻了膀胱炎症和屏障功能障碍。在机制上，PPS增加了嗜木真杆菌的丰度，增加了cypp处理小鼠肠道中的DCA水平。FMT实验证实了PPS的微生物依赖性治疗作用，在CYP和PPS治疗的受体小鼠中，膀胱病理减少。在SV-HUC-1细胞中，DCA明显减轻lps诱导的炎症和屏障破坏，而SBI-115治疗可消除DCA的这些保护作用。结论：PPS通过重塑肠道菌群，促进DCA的产生，激活TGR5信号通路，改善小鼠IC/BPS，提示一种新的微生物-胆汁酸-TGR5轴介导PPS的治疗效果，以及一种针对肠-膀胱串扰的IC/BPS治疗策略。

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