Lung microbiota in the acute respiratory disease: from coronavirus to metabolomics

IF 0.3 Q4 PEDIATRICS
V. Fanos, Maria Cristina Pintus, R. Pintus, M. A. Marcialis
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引用次数: 63

Abstract

Healthy lungs are not sterile. In the last decade, it was demonstrated that the healthy lung has its specific microbiota. It is much smaller in numerical terms, compared to the gut microbiota, but it is a unique microbiota that can affect the health and the diseases. With an estimated number of 10-100 bacteria for 1.000 human cells, the lower respiratory tract is one of the less populated surfaces by the bacteria of the whole human body. Even human fetal lungs host a “signature” of the microbiota. The composition of the lung microbiota depends on several factors, including the so-called “microbial immigration” from micro-aspiration and inhalation of microorganisms.The connection between the lung and the gastrointestinal tract is not entirely understood. Patients with respiratory infections generally have gut dysfunctions complications, which are related to a more severe clinical course, thus indicating gut-lung crosstalk. In this review we analyse the lung microbiota in newborns, infants and adults with respiratory disease. In acute pulmonary diseases such as sepsis, trauma, and acute respiratory distress syndrome (ARDS), the lung microbiota becomes rich in gut bacteria, such as Bacteroidetes and Enterobacteriaceae. This phenomenon is also called “more gut in the lung”. In acute situations, the gut becomes hyper-permeable (leaky gut), and the bacteria can translocate through the colon wall and reach the lung affecting the inflammation, the infection, and the acute pulmonary damage. The increased gut permeability is associated with an increased alveolus-capillary hyper-permeability as well.There are tight correlations between the lung microbiota and the admission in intensive care. In particular, the modifications of the lung microbiota can help in predicting in which way the patients in critical condition will respond to the treatments. It has been investigated if the different incidence depending on age and the different courses between adults and children for Novel COronaVIrus Disease 2019 (COVID-19) could be due to the different concentrations and/or activation of angiotensin-converting enzyme 2 (ACE2) at the intestinal and pulmonary level. ACE2 is mainly localized on the luminal surface of the intestinal epithelial cells and it has been hypothesized that gut microbiota influences the action of ACE2. Thus, a close relationship between COVID-19 and the microbiota can be hypothesized (it has been studied in cats). Potential interventions for COVID-19 are: nutritional, antiviral, anti-coronavirus, and miscellanea. Other options could include also probiotics, especially Bifidobacteria and Lactobacilli, namely L. gasseri. In the next future, metabolomics could be applied in the study of COVID-19, deciphering the secret languages between viruses, bacteria and the organism.
急性呼吸道疾病的肺部微生物群:从冠状病毒到代谢组学
健康的肺部不是无菌的。在过去的十年里,已经证明健康的肺部有其特定的微生物群。与肠道微生物群相比,它在数量上要小得多,但它是一种独特的微生物群,可以影响健康和疾病。据估计,1000个人体细胞中有10-100个细菌,下呼吸道是整个人体细菌数量较少的表面之一。即使是人类胎儿的肺部也有微生物群的“特征”。肺部微生物群的组成取决于几个因素,包括微生物的微抽吸和吸入产生的所谓“微生物迁移”。肺和胃肠道之间的联系还不完全清楚。呼吸道感染患者通常会出现肠道功能障碍并发症,这与更严重的临床过程有关,因此表明肠肺串扰。在这篇综述中,我们分析了患有呼吸系统疾病的新生儿、婴儿和成人的肺部微生物群。在败血症、创伤和急性呼吸窘迫综合征(ARDS)等急性肺部疾病中,肺部微生物群富含肠道细菌,如拟杆菌门和肠杆菌科。这种现象也被称为“肺部肠道增多”。在急性情况下,肠道变得超渗透(肠道渗漏),细菌可以通过结肠壁转移并到达肺部,从而影响炎症、感染和急性肺部损伤。肠道通透性的增加也与肺泡毛细血管通透性的增加有关。肺部微生物群与重症监护入院之间存在密切相关性。特别是,肺部微生物群的改变有助于预测危重患者对治疗的反应。研究表明,2019年新型冠状病毒(新冠肺炎)成人和儿童的不同发病率(取决于年龄和不同病程)是否可能是由于肠道和肺部血管紧张素转化酶2(ACE2)的不同浓度和/或激活所致。ACE2主要定位于肠上皮细胞的管腔表面,并且假设肠道微生物群影响ACE2的作用。因此,可以假设新冠肺炎与微生物群之间存在密切关系(已在猫身上进行了研究)。新冠肺炎的潜在干预措施包括:营养、抗病毒、抗冠状病毒和综合性。其他选择也可以包括益生菌,特别是双歧杆菌和乳酸杆菌,即L.gasseri。在未来,代谢组学可以应用于新冠肺炎的研究,破解病毒、细菌和生物体之间的秘密语言。
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来源期刊
CiteScore
1.00
自引率
25.00%
发文量
0
审稿时长
12 weeks
期刊介绍: The Journal of Pediatric and Neonatal Individualized Medicine (JPNIM) is a peer-reviewed interdisciplinary journal which provides a forum on new perspectives in pediatric and neonatal medicine. The aim is to discuss and to bring readers up to date on the latest in research and clinical pediatrics and neonatology. Special emphasis is on developmental origin of health and disease or perinatal programming and on the so-called ‘-omic’ sciences. Systems medicine blazes a revolutionary trail from reductionist to holistic medicine, from descriptive medicine to predictive medicine, from an epidemiological perspective to a personalized approach. The journal will be relevance to clinicians and researchers concerned with personalized care for the newborn and child. Also medical humanities will be considered in a tailored way. Article submission (original research, review papers, invited editorials and clinical cases) will be considered in the following fields: fetal medicine, perinatology, neonatology, pediatrics, developmental programming, psychology and medical humanities.
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