长双歧杆菌对反复避水应激诱导的 Wistar 大鼠肠道菌群失调的影响存在性别差异

IF 2.5 Q3 ONCOLOGY Journal of Cancer Prevention Pub Date : 2024-03-29 DOI:10.15430/JCP.23.042
S. Choi, N. Kim, R. Nam, Jae Young Jang, Eun Hye Kim, SungChan Ha, Kisung Kang, Wonseok Lee, C. Shin, D. H. Lee
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引用次数: 0

摘要

众所周知,肠道微生物菌群失调会导致肠易激综合征的发生。我们试图在 Wistar 大鼠模型中研究长双歧杆菌对重复避水应激(WAS)的影响。我们将大鼠分为三组(无应激组、水应激组和添加了长双歧杆菌的水应激组),分别进行为期 10 天、每天 1 小时的假水应激或水应激,并通过灌胃给药给大鼠服用长双歧杆菌 10 天。在每次 1 小时的 WAS 结束时计算粪便颗粒数。重复 WAS 10 天后,对大鼠进行去势处理并收集粪便。WAS显著增加了雌雄大鼠的粪便排出量(FPO)(P < 0.001),而雌性B. longum组的粪便排出量显著减少(P = 0.005)。然而,髓过氧化物酶活性以及白细胞介素-1β和 TNF-α 的 mRNA 表达没有发生一致的变化。女性 WAS 组结肠黏膜下层的肥大细胞浸润增加(P = 0.016)。在粪便微生物群方面,与对照组和含有长肠杆菌的 WAS 组相比,重复 WAS 组的男女患者表现出不同的 beta 多样性。雌性大鼠服用长春花酵母菌后,WAS 引起的肥大细胞浸润有所减少。此外,服用长春花酵母菌还能缓解 WAS 引起的菌群失调,尤其是在雌性大鼠中。总之,长春花酵母菌对大鼠(尤其是雌性大鼠)因 WAS 引起的应激有益。
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Sex Difference in the Effect of Bifidobacterium longum on Repeated Water Avoidance Stress-induced Gut Dysbiosis in Wistar Rats
Dysbiosis in gut microbiota is known to contribute to development of irritable bowel syndrome. We tried to investigate the effect of Bifidobacterium longum on repeated water avoidance stress (WAS) in a Wistar rat model. The three groups (no-stress, WAS, and WAS with B. longum) of rats were allocated to sham or WAS for 1 hour daily for 10 days, and B. longum was administered through gavage for 10 days. Fecal pellet numbers were counted at the end of each 1-hour session of WAS. After 10 days of repeated WAS, the rats were eutanized, and the feces were collected. WAS increased fecal pellet output (FPO) significantly in both sexes (P < 0.001), while the female B. longum group showed significantly decreased FPO (P = 0.005). However, there was no consistent change of myeloperoxidase activity and mRNA expression of interleukin-1β and TNF-α. Mast cell infiltration at colonic submucosa increased in the female WAS group (P = 0.016). In terms of fecal microbiota, the repeated WAS groups in both sexes showed different beta-diversity compared to control and WAS with B. longum groups. WAS-induced mast cell infiltration was reduced by the administration of B. longum in female rats. Moreover, administration of B. longum relieved WAS-caused dysbiosis, especially in female rats. In conclusion, B. longum was beneficial for WAS-induced stress in rats, especially in females.
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