通过调节氧化-炎症、CREB 和 MAPK 信号通路，补充酵母可增强氟西汀对小鼠的抗抑郁作用

IF 2.1 Q3 PHYSIOLOGY Current research in physiology Pub Date : 2024-01-01 DOI:10.1016/j.crphys.2024.100132

Augustina Potokiri , Noah A. Omeiza , Abayomi M. Ajayi , Paul A. Adeleke , Abdullateef I. Alagbonsi , Ezekiel O. Iwalewa

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引用次数: 0

摘要

引言酵母在治疗抑郁症方面的潜力尚不清楚。因此，我们评估了在抑郁样行为（DLB）小鼠模型中补充营养酵母对氟西汀抗抑郁活性的调节作用。第一阶段（非 DLB 研究）分为 Ia 组（10 毫升/千克载体）、Ib 组（20 毫克/千克氟西汀）、Ic - If 组（均为 2% 酵母饮食，但 Id - If 组分别额外摄入 5 毫克/千克、10 毫克/千克和 20 毫克/千克氟西汀）。第二阶段（脂多糖[LPS]DLB 模型）分为 IIa - IIb 组（10 毫升/千克载体）、IIc 组（20 毫克/千克氟西汀）、IId 组（酵母）和 IIe 组（酵母 + 20 毫克/千克氟西汀）。经过 24 天的治疗后，IIb - IIe 组动物在第 25 天接受了 0.83 毫克/千克的 LPS。除 IIIa 组（10 毫升/千克载体）外，第三阶段（不可预知的慢性温和应激 [UCMS] 模型）其他各组的动物均暴露于 UCMS 24 天，同时接受 10 毫升/千克载体（IIIb）、20 毫克/千克氟西汀（IIIc）、酵母（IIId）或酵母 + 氟西汀（IIIe）的治疗。结果酵母和氟西汀减轻了 LPS 和 UCMS 诱导的不运动、氧化-炎症（TNF-α、IL-6、NO、MDA、SOD、GSH、CAT 和 AChE）和 CREB/MAPK 通路的失调。结论补充酵母可通过调节氧化-炎症、CREB 和 MAPK 通路改善氟西汀在小鼠体内的抗抑郁活性。

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Yeast supplementation potentiates fluoxetine's anti-depressant effect in mice via modulation of oxido-inflammatory, CREB, and MAPK signaling pathways

Introduction

The therapeutic potential of yeast in the management of depression is unknown. Thus, we evaluated the modulatory effect of nutritional yeast supplementation on antidepressant activity of fluoxetine in mice models of depressive-like behaviors (DLB).

Methods

A total of 112 mice were divided into 16 groups (n = 7 each) for a 3-stage study. Stage I (non-DLB study) had groups Ia (10 mL/kg vehicle), Ib (20 mg/kg fluoxetine), Ic – If (2% yeast diet for all, but Id - If additionally received 5 mg/kg, 10 mg/kg, and 20 mg/kg fluoxetine respectively). Stage II (lipopolysaccharide [LPS] model of DLB) had groups IIa - IIb (10 mL/kg vehicle), IIc (20 mg/kg fluoxetine), IId (yeast) and IIe (yeast + 20 mg/kg fluoxetine). After these treatments for 24 days, animals in IIb - IIe received 0.83 mg/kg of LPS on the 25th day. Except for group IIIa (10 mL/kg vehicle), animals in other groups of stage III (unpredictable chronic mild stress [UCMS] model) were exposed to UCMS for 24 days along with 10 mL/kg vehicle (IIIb), 20 mg/kg fluoxetine (IIIc), yeast (IIId), or yeast + fluoxetine (IIIe).

Results

Yeast and fluoxetine attenuated LPS- and UCMS-induced immobility, derangement of oxido-inflammatory (TNF-α, IL-6, NO, MDA, SOD, GSH, CAT, and AChE) and CREB/MAPK pathways. While fluoxetine had more potent effect than yeast when used separately, pre-treatment of mice with their combination had more pronounced effect than either of them.