实体瘤患者肠道微生物群衍生的细菌细胞外囊泡
Gut microbiome-derived bacterial extracellular vesicles in patients with solid tumours.
作者信息
Mishra Surbhi, Tejesvi Mysore Vishakantegowda, Hekkala Jenni, Turunen Jenni, Kandikanti Niyati, Kaisanlahti Anna, Suokas Marko, Leppä Sirpa, Vihinen Pia, Kuitunen Hanne, Sunela Kaisa, Koivunen Jussi, Jukkola Arja, Kalashnikov Ilja, Auvinen Päivi, Kääriäinen Okko-Sakari, Peñate Medina T, Peñate Medina O, Saarnio Juha, Meriläinen Sanna, Rautio Tero, Aro Raila, Häivälä Reetta, Suojanen Juho, Laine Mikael, Erawijattari Pande Putu, Lahti Leo, Karihtala Peeter, Ruuska Terhi S, Reunanen Justus
机构信息
Research Unit of Translational Medicine, University of Oulu, Oulu, Finland; Biocenter Oulu, University of Oulu, Oulu, Finland.
Biocenter Oulu, University of Oulu, Oulu, Finland; Ecology and Genetics, Faculty of Science, University of Oulu, Oulu, Finland.
出版信息
J Adv Res. 2025 Feb;68:375-386. doi: 10.1016/j.jare.2024.03.003. Epub 2024 Mar 7.
INTRODUCTION
Gut microbiome-derived nanoparticles, known as bacterial extracellular vesicles (bEVs), have garnered interest as promising tools for studying the link between the gut microbiome and human health. The diverse composition of bEVs, including their proteins, mRNAs, metabolites, and lipids, makes them useful for investigating diseases such as cancer. However, conventional approaches for studying gut microbiome composition alone may not be accurate in deciphering host-gut microbiome communication. In clinical microbiome research, there is a gap in the knowledge on the role of bEVs in solid tumor patients.
OBJECTIVES
Analyzing the functionality of bEVs using (meta)genomics and proteomics could highlight the unique aspects of host-gut microbiome interactions in solid tumor patients. Therefore, we performed a comparative analysis of the proteome and microbiota composition of gut microbiome-derived bEVs isolated from patients with solid tumors and healthy controls.
METHODS
After isolating bEVs from the feces of solid tumor patients and healthy controls, we performed spectrometry analysis of their proteomes and next-generation sequencing (NGS) of the 16S gene. We also investigated the gut microbiomes of feces from patients and controls using 16S sequencing and used machine learning to classify the samples into patients and controls based on their bEVs and fecal microbiomes.
RESULTS
Solid tumor patients showed decreased microbiota richness and diversity in both the bEVs and feces. However, the bEV proteomes were more diverse in patients than in the controls and were enriched with proteins associated with the metabolism of amino acids and carbohydrates, nucleotide binding, and oxidoreductase activity. Metadata classification of samples was more accurate using fecal bEVs (100%) compared with fecal samples (93%).
CONCLUSION
Our findings suggest that bEVs are unique functional entities. There is a need to explore bEVs together with conventional gut microbiome analysis in functional cancer research to decipher the potential of bEVs as cancer diagnostic or therapeutic biomarkers.
引言
肠道微生物群衍生的纳米颗粒,即细菌细胞外囊泡(bEVs),作为研究肠道微生物群与人类健康之间联系的有前景的工具,已引起人们的关注。bEVs的多样组成,包括其蛋白质、mRNA、代谢物和脂质,使其在研究癌症等疾病方面很有用。然而,仅研究肠道微生物群组成的传统方法在解读宿主与肠道微生物群的交流方面可能不准确。在临床微生物组研究中,关于bEVs在实体瘤患者中的作用的知识存在空白。
目的
使用(元)基因组学和蛋白质组学分析bEVs的功能,可能会突出实体瘤患者中宿主与肠道微生物群相互作用的独特方面。因此,我们对从实体瘤患者和健康对照中分离出的肠道微生物群衍生的bEVs的蛋白质组和微生物群组成进行了比较分析。
方法
从实体瘤患者和健康对照的粪便中分离出bEVs后,我们对其蛋白质组进行了光谱分析,并对16S基因进行了下一代测序(NGS)。我们还使用16S测序研究了患者和对照粪便中的肠道微生物群,并使用机器学习根据其bEVs和粪便微生物群将样本分类为患者和对照。
结果
实体瘤患者的bEVs和粪便中的微生物群丰富度和多样性均降低。然而,患者的bEV蛋白质组比对照更具多样性,并且富含与氨基酸和碳水化合物代谢、核苷酸结合和氧化还原酶活性相关的蛋白质。与粪便样本(93%)相比,使用粪便bEVs进行样本的元数据分类更准确(100%)。
结论
我们的研究结果表明,bEVs是独特的功能实体。在功能性癌症研究中,有必要将bEVs与传统的肠道微生物组分析一起进行探索,以解读bEVs作为癌症诊断或治疗生物标志物的潜力。
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