口腔微生物组与全身疾病的相关性

口腔是全身寄居微生物密度最高,种类最多的部位之一.口腔微生物不仅在龋病、牙周病、口腔癌等口腔疾病的病程中发挥重要作用,还与全身系统性疾病关系密切.口腔微生物组与全身系统性疾病之间存在紧密的相关性,可以促进全身系统性疾病的发生和发展.本文对口腔微生物组与全身系统性疾病的研究进展、口腔微生物组在全身系统疾病进程中的重要作用...     

活性污泥微生物组：去除污浊，只留清淡

活性污泥法诞生一百多年来,在污水处理特别是城市污水处理中发挥了不可替代的作用。活性污泥微生物是去除污染物包括新型有机和无机污染物的关键角色,活性污泥微生物组为微生物分离培养、功能鉴定和生态互作等方面的研究带来新的活力。     

肠道微生物与过敏性疾病关系研究进展

目前,过敏性疾病的防治主要依赖于使用抗生素,然而抗生素的滥用已造成了严重的危害。近年来随着肠道微生物相关研究的不断深入以及人们对过敏性疾病的日益关注与重视,肠道微生物与过敏性疾病间的关系逐渐受到科学家们的关注。调整肠道菌群结构可能为过敏性疾病的防治提供新的思路。目前对肠道微生物与过敏性疾病间的相关性报道相对较少且未有深层次的剖析。本文总结了关于肠道微生物与过敏性疾病关系的研究起源、发展与现状,旨在为过敏性疾病的防治提供新策略。     

女性生殖道感染与阴道菌群失调的关系及治疗

生殖道感染（reproductive tract infection,RTI）是由正常存在于生殖道的微生物或外界微生物在医疗操作中或在性接触中在生殖道引起的感染。从感染的部位上,RTI分为下生殖道感染（外阴阴道炎及宫颈炎）以及上生殖道感染（盆腔炎性疾病）,上生殖道感染常在下生殖道感染的基础上发生,几种下生殖道感染可合并存在。生殖道感染未被及时发现或治疗不及时．可导致不孕、异位妊娠、流产、早产、胎膜早破、新生儿感染等一系列严重后果,此外,生殖道感染还与宫颈癌的发生呈现一定的相关性,也是导致艾滋病、性病易感染的因素之一,严重影响妇女的生活质量。据有关报道,我国已婚育龄妇女生殖道感染的发生率为42．1％,且农村地区患病率更高。     

乳酸菌与阴道疾病关系的研究进展

乳酸菌是阴道菌群中的优势菌群,能够分解糖原产生乳酸、过氧化氢及多种抗微生物因子,可从多方面调节阴道内需氧菌和厌氧菌的比例,维持着阴道内的菌群平衡。当这种平衡被其他各种因素打破时,便会引起阴道疾病,通过补充活性乳酸菌可以达到对阴道疾病的预防和治疗。本研究概述了六类常见的阴道疾病,并对近年来乳酸菌治疗此类疾病的机制极其研究进展进行了阐述。     

肺微生物组与慢性阻塞性肺疾病的研究进展

慢性阻塞性肺疾病（COPD）是一种慢性炎症性呼吸道疾病,其特征是持续气流受限和肺部炎症反应异常。气道内微生物是COPD恶化的主要原因,并且使气道中的炎症反应持续存在而促成COPD进展,这导致肺功能的进一步损害和巨大的医疗保健成本。近年来随着高通量测序技术的发展和运用,人类肺微生物组的研究逐渐成为热点。大量研究表明,COPD患者肺内存在明显不同的微生物群落,而且与COPD的疾病严重程度及恶化状态有关。肺微生物组学的研究有助于人们更全面地理解COPD患者肺内的微生态系统及其在该病恶化和进展中的作用。本文就肺微生物组在COPD中的研究进展作一综述,并探讨未来的研究前景。     

中国白酒酒曲微生物组研究进展及趋势

酒曲是中国白酒酿造过程的糖化发酵剂,对酿造酒体的品质与风味有重要影响,其质量与其中的微生物结构和酶系组成有重要关联.近年来基于现代生物学技术对白酒酒曲微生物组的研究表明,该体系具有丰富的科学内涵与广阔的应用价值.酒曲微生物组具有微生物物种丰度高、酶系功能复杂多样等特点,并与制备环境存在显著交互作用.基于酒曲微生物组特点...     

中国传统发酵食品微生物组研究进展

传统发酵食品风味独特、营养丰富,多采用自然接种方式进行生产,部分类型的生产技艺已具有数千年的历史。近年来应用新技术手段对传统发酵食品发酵过程进行的研究表明,传统发酵食品微生物组具有丰富的科学内涵和重要的应用价值。本文就我国传统发酵食品微生物组的基本特征、研究进展和发展方向进行了简要的评述。     

肺微生物组在慢性阻塞性肺疾病中的研究进展CSCD

慢性阻塞性肺疾病（chronic obstructive pulmonary disease,COPD）是一种以持续的呼吸道症状和气流受限为主要特征的异质性疾病。新一代基因测序技术已经证明健康肺部存在庞大的微生物群落。越来越多的研究表明,肺微生物群失调与COPD的发生、急性加重次数及病死率有关。肺微生物可能通过调控炎症或免疫过程参与COPD的发病机制。全面了解肺微生物群在COPD不同阶段的动态变化和微生物与宿主的相互作用,有助于进一步揭示其在COPD发病机制中的作用。本文综述了肺微生物组在COPD中的研究进展,探讨其与COPD进展之间的关系及潜在的机制,以期开发有针对性的治疗方法。     

人体微生物群与微生物组

随着微生物群(组)研究的兴起,人体微生物组对机体健康或疾病作用的探索一度呈井喷之势,但研究技术及分析方法仍处于起步阶段,需进一步深入。本文对微生物群和微生物组的概念进行了解释,阐述了人体微生物群与机体的相互作用模式,概括了微生物群与人体有关疾病的关系,提出了人体微生物组研究中的6个关键问题,并对未来的发展方向进行了展望。     

Gut dysbacteriosis and intestinal disease: mechanism and treatment

The gut microbiome functions like an endocrine organ, generating bioactive metabolites, enzymes or small molecules that can impact host physiology. Gut dysbacteriosis is associated with many intestinal diseases including (but not limited to) inflammatory bowel disease, primary sclerosing cholangitis-IBD, irritable bowel syndrome, chronic constipation, osmotic diarrhoea and colorectal cancer. The potential pathogenic mechanism of gut dysbacteriosis associated with intestinal diseases includes the alteration of composition of gut microbiota as well as the gut microbiota–derived signalling molecules. The many correlations between the latter and the susceptibility for intestinal diseases has placed a spotlight on the gut microbiome as a potential novel target for therapeutics. Currently, faecal microbial transplantation, dietary interventions, use of probiotics, prebiotics and drugs are the major therapeutic tools utilized to impact dysbacteriosis and associated intestinal diseases. In this review, we systematically summarized the role of intestinal microbiome in the occurrence and development of intestinal diseases. The potential mechanism of the complex interplay between gut dysbacteriosis and intestinal diseases, and the treatment methods are also highlighted.     

Vaginal epithelial dysfunction is mediated by the microbiome,metabolome, and mTOR signaling

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Focus: Microbiome: Unraveling the Dynamics of the Human Vaginal Microbiome

Four Lactobacillus species, namely L. crispatus, L. iners, L. gasseri, and L. jensenii, commonly dominate the vaginal communities of most reproductive-age women. It is unclear why these particular species, and not others, are so prevalent. Historically, estrogen-induced glycogen production by the vaginal epithelium has been proffered as being key to supporting the proliferation of vaginal lactobacilli. However, the ‘fly in the ointment’ (that has been largely ignored) is that the species of Lactobacillus commonly found in the human vagina cannot directly metabolize glycogen. It would appear that this riddle has been solved as studies have demonstrated that vaginal lactobacilli can metabolize the products of glycogen depolymerization by α-amylase, and fortunately, amylase activity is found in vaginal secretions. These amylases are presumed to be host-derived, but we suggest that other bacterial populations in vaginal communities could also be sources of amylase in addition to (or instead of) the host. Here we briefly review what is known about human vaginal bacterial communities and discuss how glycogen-derived resources and resource competition might shape the composition and structure of these communities.     

Gut microbiome in tumorigenesis and therapy of colorectal cancer

Colorectal cancer (CRC) is the malignant tumor with the highest incidence in the digestive system, and the gut microbiome plays a crucial role in CRC tumorigenesis and therapy. The gastrointestinal tract is the organ harboring most of the microbiota in humans. Changes in the gut microbiome in CRC patients suggest possible host–microbe interactions, thereby hinting the potential tumorigenesis, which provides new perspective for preventing, diagnosing, or treating CRC. In this review, we discuss the effects of gut microbiome dysbiosis on CRC, and reveal the mechanisms by which gut microbiome dysbiosis leads to CRC. Gut microbiome modulation with the aim to reverse the established gut microbial dysbiosis is a novel strategy for the prevention and treatment of CRC. In addition, this review summarizes that probiotic antagonize CRC tumorigenesis by protecting intestinal barrier function, inhibiting cancer cell proliferation, resisting oxidative stress, and enhancing host immunity. Finally, we highlight clinical applications of the gut microbiome, such as gut microbiome analysis-based biomarker screening and prediction, and microbe modulation-based CRC prevention, treatment enhancement, and treatment side effect reduction. This review provides the reference for the clinical application of gut microbiome in the prevention and treatment of CRC.     

人类口腔微生物组学研究:现状、挑战及机遇

全球超过一半的人口患有口腔疾病,其医护费用与全球十大常见死亡病因的花费相当,而且口腔感染与早产、动脉粥样硬化、肝硬化、糖尿病、阿尔茨海默病等全身性或慢性疾病显著相关,因此,口腔微生物组一直是人类微生物组计划的主要研究对象之一。与人体其他部位比较,口腔微生物组研究具有取样快捷、宿主反应表征方便、干预手段直接有效等特点;同时,超过65%的口腔细菌类群已可培养,诸多代表性菌株的全基因组信息已破译。因此口腔微生物组在菌群内部调控网络及其与宿主互作机制、局部感染对远隔器官的影响机制、以及基于菌群的慢病早期预警等微生物组研究核心科学问题上具备作为模式研究体系与技术示范对象的重要优势。本文在分析口腔微生物组学国际、国内研究现状的基础上,建议尽快启动中国人口腔微生物组计划(China human oral microbiome project,CHOMP),通过产学研协同攻关,开拓基于口腔菌群的口腔及全身系统性疾病的个体化预防、诊断及治疗策略。     

核心微生物组的研究及利用现状

随着分子生物学和生物信息学的飞速发展,新一代测序技术可以轻松地检测不同样本中复杂的微生物分类单元。面对这些复杂而大量的微生物组数据带来的分析挑战,利用核心微生物组的方法来描述和分析样本中的核心微生物组和关键种是近年来新的研究热点,这些结果将揭示与宿主健康、生长和生产等密切相关的微生物种类,有助于深入认识微生物与宿主间的相互关系,深刻理解微生物对宿主的影响作用,更好地理解微生物组在自然生态系统中的功能。本文阐述了核心微生物组的定义、研究方法、与动植物的关系等方面的研究及利用现状,为更好地利用核心微生物组解决环境、人类健康和农业生产问题提供思路。     

Application of ecological and evolutionary theory to microbiome community dynamics across systems

A fundamental aim of microbiome research is to understand the factors that influence the assembly and stability of host-associated microbiomes, and their impact on host phenotype, ecology and evolution. However, ecological and evolutionary theories applied to predict microbiome community dynamics are largely based on macroorganisms and lack microbiome-centric hypotheses that account for unique features of the microbiome. This special feature sets out to drive advancements in the application of eco-evolutionary theory to microbiome community dynamics through the development of microbiome-specific theoretical and conceptual frameworks across plant, human and non-human animal systems. The feature comprises 11 research and review articles that address: (i) the effects of the microbiome on host phenotype, ecology and evolution; (ii) the application and development of ecological and evolutionary theories to investigate microbiome assembly, diversity and stability across broad taxonomic scales; and (iii) general principles that underlie microbiome diversity and dynamics. This cross-disciplinary synthesis of theoretical, conceptual, methodological and analytical approaches to characterizing host–microbiome ecology and evolution across systems addresses key research gaps in the field of microbiome research and highlights future research priorities.     

Long term methionine restriction: Influence on gut microbiome and metabolic characteristics

The Methionine restriction (MR) diet has been shown to delay aging and extend lifespan in various model organisms. However, the long-term effects of MR diet on the gut microbiome composition remain unclear. To study this, male mice were started on MR and control diet regimens at 6 months and continued until 22 months of age. MR mice have reduced body weight, fat mass percentage, and bone mineral density while having increased lean mass percentage. MR mice also have increased insulin sensitivity along with increasing indirect calorimetry markers such as energy expenditure, oxygen consumption, carbon dioxide production, and glucose oxidation. Fecal samples were collected at 1 week, 18 weeks, and 57 weeks after the diet onset for 16S rRNA amplicon sequencing to study the gut microbiome composition. Alpha and beta diversity metrics detected changes occurring due to the timepoint variable, but no changes were detected due to the diet variable. The results from LEfSe analysis surprisingly showed that more bacterial taxa changes were linked to age rather than diet. Interestingly, we found that the long-term MR diet feeding induced smaller changes compared to short-term feeding. Specific taxa changes due to the diet were observed at the 1 or 18-week time points, including Ileibacterium, Odoribacter, Lachnoclostridium, Marinifilaceae, and Lactobacillaceae. Furthermore, there were consistent aging-associated changes across both groups, with an increase in Ileibacterium and Erysipelotrichaceae with age, while Eubacterium_coprostanoligenes_group, Ruminococcaceae, Peptococcaceae, and Peptococcus decreased with age.     

肠道菌群与肾脏疾病相关性研究进展

人体是一个有机的整体,不同系统之间存在着相互影响。近年来,随着科学的不断发展,肠道菌群与人体健康的关系也逐渐受到重视。肠道菌群虽然居住于肠道,但其作用已经不仅仅局限于消化系统。通过对人体代谢和免疫功能的影响,肠道菌群对人体产生的作用是全身性的。肾脏是体内代谢产物排泄的主要器官,也是免疫复合物沉积的重要部位。因此,肠道菌群在肾脏疾病发展和治疗中都起着至关重要的作用。现如今,两者的关系已经成为科学研究的热点话题。本文总结了近5年的文献,从中西医的角度,针对肠道菌群与肾脏疾病之间的相互关系作一综述。