Human Umbilical Cord Mesenchymal Stem Cells Improve Lung Function in Chronic Obstructive Pulmonary Disease Rat Model Through Regulating Lung Microbiota.

IF 4 2区 医学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY STEM CELLS Pub Date : 2024-04-15 DOI:10.1093/stmcls/sxae007
Xiao Zhang, Ting Hu, Xinjuan Yu, Tianying Wang, Lei Jiang, Lixin Sun, Wei Han
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Abstract

Background: The use of human umbilical cord mesenchymal stem cells (UC-MSCs) has shown promise in improving the pathophysiological characteristics of rats with chronic obstructive pulmonary disease (COPD). However, more research is needed to understand the exact mechanism behind their therapeutic effects and their impact on lung microbiota.

Methods: To investigate this, rats were randomly assigned to one of 3 groups: Control, COPD + vehicle, and COPD + UC-MSCs group. Lung function changes after UC-MSCs therapy were evaluated weekly for 6 weeks. Additionally, lactate dehydrogenase (LDH), TNF (tumor necrosis factor)-α, IL (interleukin)-6, and IL-1β level in bronchoalveolar lavage fluid (BALF) were analyzed. Arterial blood gas and weight were recorded. Hematoxylin and eosin (HE) staining was used to examine lung pathology, while changes in the lung microbiota were evaluated through 16S rRNA sequencing.

Results: The administration of UC-MSCs in rats led to a progressive amelioration of COPD, as demonstrated by enhanced lung function and reduced inflammatory response. UC-MSCs treatment significantly altered the structure and diversity of the lung microbiota, effectively preventing microbiota dysbiosis. This was achieved by increasing the abundance of Bacteroidetes and reducing the levels of Proteobacteria. Additionally, treatment with UC-MSCs reduced the activation of pathways associated with COPD, including microbial metabolism, ABC transporters, and Quorum sensing. The group of UC-MSCs showed increased metabolic pathways, such as amino acid biosynthesis, purine metabolism, starch and sucrose metabolism, and biosynthesis of secondary metabolites, compared to the COPD group.

Conclusions: The use of UC-MSCs was found to reduce inflammation and improve lung function in rats with COPD. The mechanism may be related to the lung microbiota, as UC-MSCs improved the communities of lung microbiota and regulated dysregulated metabolic pathways.

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人脐带间充质干细胞通过调节肺微生物群改善慢性阻塞性肺病大鼠模型的肺功能
背景:使用人脐带间充质干细胞(UC-MSCs)有望改善慢性阻塞性肺病(COPD)大鼠的病理生理特征。然而,要了解其治疗效果背后的确切机制及其对肺部微生物群的影响,还需要更多的研究:方法:为了研究这一点,大鼠被随机分配到三个组中的一组:对照组、慢性阻塞性肺病+车辆组和慢性阻塞性肺病+UC-间充质干细胞组。在连续六周的时间里,每周评估 UC-间充质干细胞治疗后肺功能的变化。此外,还分析了支气管肺泡灌洗液(BALF)中的乳酸脱氢酶(LDH)、肿瘤坏死因子(TNF)-α、白细胞介素(IL)-6和IL-1β水平。记录动脉血气和体重。血沉和伊红(HE)染色用于检查肺部病理,而肺部微生物群的变化则通过 16S rRNA 测序进行评估:结果:给大鼠注射 UC 间充质干细胞后,慢性阻塞性肺病逐渐得到改善,表现为肺功能增强、炎症反应减轻。UC-间充质干细胞治疗能明显改变肺部微生物群的结构和多样性,有效防止微生物群失调。这是通过提高类杆菌的丰度和降低变形杆菌的水平实现的。此外,使用 UC 间充质干细胞治疗还能减少慢性阻塞性肺病相关途径的激活,包括微生物代谢、ABC 转运体和法定量感应。与慢性阻塞性肺病组相比,UC-间充质干细胞组的氨基酸生物合成、嘌呤代谢、淀粉和蔗糖代谢以及次级代谢产物的生物合成等代谢途径有所增加:结论:研究发现,使用 UC-间充质干细胞能减轻慢性阻塞性肺病大鼠的炎症反应并改善其肺功能。其机制可能与肺部微生物群有关,因为 UC 间充质干细胞改善了肺部微生物群落,并调节了失调的代谢途径。
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来源期刊
STEM CELLS
STEM CELLS 医学-生物工程与应用微生物
CiteScore
10.30
自引率
1.90%
发文量
104
审稿时长
3 months
期刊介绍: STEM CELLS, a peer reviewed journal published monthly, provides a forum for prompt publication of original investigative papers and concise reviews. STEM CELLS is read and written by clinical and basic scientists whose expertise encompasses the rapidly expanding fields of stem and progenitor cell biology. STEM CELLS covers: Cancer Stem Cells, Embryonic Stem Cells/Induced Pluripotent Stem (iPS) Cells, Regenerative Medicine, Stem Cell Technology: Epigenetics, Genomics, Proteomics, and Metabonomics, Tissue-Specific Stem Cells, Translational and Clinical Research.
期刊最新文献
Notch Inhibition Enhances Morphological Reprogramming of microRNA-Induced Human Neurons. The influence of biomimetic conditions on neurogenic and neuroprotective properties of dedifferentiated fat cells (DFATs). Trained Mesenchymal Stromal Cell-Based Therapy HXB-319 for Treating Diffuse Alveolar Hemorrhage in a Pristane-induced Murine Model. A small molecule K-3 promotes PDX1 expression and potentiates the differentiation of pluripotent stem cells into insulin-producing pancreatic β cells. Microglia in the spinal cord stem cell niche regulate neural precursor cell proliferation via soluble CD40 in response to myelin basic protein.
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