益生菌干预对高脂高糖饮食诱导肥胖小鼠肠道菌群及脂代谢影响的研究

目的 探讨益生菌干预对高脂高糖饮食诱导肥胖小鼠肠道菌群及脂代谢的影响。方法 C57BL/6J雌性小鼠30只随机分为正常对照组、肥胖组和益生菌干预组,每组10只,分别给予标准饲料、高脂高糖饲料以及高脂高糖饲料同时给予益生菌干预,连续喂养6周,测量并分析三组小鼠的体重。留取小鼠粪便样本,应用PCR-DGGE法分析菌群,应用酶反应比色法分析三组小鼠血脂情况。结果 与正常对照组小鼠相比,肥胖小鼠体重明显增加,益生菌干预组小鼠体重略有增加;肥胖组小鼠肠道菌群紊乱,与正常对照组分别聚为两大类,益生菌干预组小鼠肠道菌群与正常对照组聚为一大类。肥胖小鼠血清总胆固醇、低密度脂蛋白含量升高,益生菌干预组小鼠较肥胖组血清总胆固醇、低密度脂蛋白含量降低,但与正常对照组仍有差异。结论 高脂高糖饮食诱导肥胖小鼠存在肠道菌群结构失调及脂代谢异常,益生菌干预可以改善肥胖小鼠菌群失调以及脂代谢紊乱。     

哺乳期过度喂养对幼鼠肥胖和肠道菌群结构的影响

目的 研究哺乳期过度喂养对幼鼠肠道细菌组成的影响以及肠道细菌与哺乳期过度喂养导致的幼年肥胖的相关性.方法 将正常出生体重的4日龄雄性ICR仔鼠分为正常喂养组(NF组,每8只由1只母鼠喂养)和哺乳期过度喂养组(OF组,每4只由1只母鼠喂养),哺乳至3周龄时,对仔鼠进行口服糖耐量试验(OGTT),称量体重、各种器官和脂肪组织的重量,用基于细菌16S rRNA基因的变性梯度凝胶电泳(DGGE)和实时定量PCR分析仔鼠的粪便细菌组成,对细菌类群数量与表型数据进行相关分析.结果 OF组仔鼠从10日龄起体重显著高于NF组,3周龄时附睾和肾周脂肪垫重量显著高于NF组,两组仔鼠的空腹血糖以及OGTT血糖曲线下面积比较差异无统计学意义.对DGGE图谱的主成分分析表明两组仔鼠的菌群结构比较差异有统计学意义.定量PCR显示,OF组仔鼠粪便中产生内毒素的肠杆菌科细菌和产生破坏肠屏障功能的H2S的硫酸盐还原菌的数量显著高于NF组,而双歧杆菌、乳杆菌和丁酸盐产生菌的数量在两组仔鼠之间差异无统计学意义.粪便硫酸盐还原菌的数量与内脏脂肪的重量显著正相关.结论 哺乳期过度喂养增加了肠道中肠杆菌科细菌和硫酸盐还原菌的数量,这些细菌的增加与仔鼠幼年期肥胖相关.     

肥胖孕妇肠道菌群与子代肥胖的相关性

妊娠期肥胖发生率在世界范围内呈上升趋势,成为影响人类健康的公共卫生问题。肥胖母亲肠道菌群失调导致婴儿早期定植菌群异常,而婴儿早期菌群定植情况与其日后生长发育密切相关,容易导致成年后出现肥胖、胰岛素抵抗、代谢综合征等疾病。因此针对肥胖孕妇肠道菌群分析,以及婴儿肠道菌群及生长发育的分析,对于孕妇孕期管理、健康宣教提高国民整体身体素质具有重要意义。     

肠道微生物多样性与能量代谢调控及肥胖关系的研究进展

肠道微生物与宿主之间相互选择,构成了一个相对稳定的超有机体。宿主基因型和遗传关系影响肠道微生物的生态学特征,而肠道微生物发酵肠道内多糖,为宿主提供可吸收利用的养分,增强肠道对养分吸收的能力。同时,肠道微生物还影响一些转录因子的活性,调控宿主基因的表达,增强宿主甘油三酯的合成和脂肪沉积,减少脂肪酸氧化分解,调控宿主能量代谢。     

肥胖人群肠道菌群特征分析及机器学习模型

【背景】肠道菌群与人体健康之间的关系吸引了越来越多的关注,成为目前热门的研究热点。【目的】基于美国肠道计划公开数据库,对肥胖和健康人群肠道菌群进行比较分析,解析肥胖人群肠道菌群特征,并基于肠道菌群建立机器学习模型预测人群肥胖的状态,为基于肠道菌群干预肥胖提供理论基础。【方法】从公开数据库中获取美国肠道计划中的肠道菌数据,经过筛选得到1 655个健康(18.530)成年人的肠道菌群数据。针对α多样性,进行了Wilcox秩和检验分析并通过Logsitic回归判定α多样性与肥胖之间的关系;对Unweighted UniFrac、WeightedUniFrac和Bray-Curtis三种β多样性距离进行主成分分析(principalcomponent analysis,PCA),探索肥胖与健康人群在肠道菌群组成上的差异;对于物种差异,进行Wilcox秩和检验探索差异菌属;通过PICRUSt分析预测可能的代谢通路,同时与肠道菌群进行相关性分析。利用Scikit-Learn软件包基于属水平的肠道菌群数据建立肥胖分类机器学习模型,并进行网络搜...     

微生态制剂和肠道菌群与亚健康

本研究简述了亚健康的普遍性及其危害,提出用微生态制剂和肠道正常菌群来调理亚健康的理念,即调理消化系统、呼吸系统;增强免疫功能;调理代谢和其他病前的亚健康;调理心理亚健康。     

肠道菌群与精神分裂症的研究进展

精神分裂症是一种精神障碍疾病。除了遗传因素外,一些环境因素也参与了精神分裂症的发生,肠道微生物群是近年来发现的主要影响因素之一。研究表明,精神分裂症患者肠道菌群普遍发生了紊乱,肠道菌群通过肠-脑轴影响神经功能和疾病。肠道菌群可以通过影响神经系统发育、免疫和代谢功能来诱导精神分裂症的发生,肠道菌群可能是精神分裂症防治的有效靶点,调节肠道菌群可能是防治精神分裂症的一种潜在方法。本文就精神分裂症的易感因素、肠道菌群在精神分裂症中的作用、机制以及防治策略等方面的研究进展进行综述。     

Types of fiber and gut microbiota composition and diversity among arab females

ObjectivesDietary fiber is recognized as an important nutrient for gut health. However, research on the relations of different types of fibers (soluble and insoluble) to the human microbiota health is limited. This study aimed to identify whether higher habitual intake of soluble and/or insoluble fiber have a different influence on the composition, diversity, and abundance of microbiota.MethodsWe examined the fecal microbial composition of 92 healthy females aged 18 and above using the novel shotgun metagenomics sequencing technique. The habitual fiber intake was determined using the Saudi food frequency questionnaire. Pearson’s correlation was used for the correlations between total, soluble, and insoluble fiber and gut microbiota. α- and β-diversities were applied to acquire the distinctions in the relative abundances of bacterial taxa.ResultsOur findings show that higher dietary fiber, particularly insoluble fiber, was significantly correlated with the abundances of Bacteroides_u_s, Bacteroides uniformis, and Lactobacillus acidophilus (r = 0.26, 0.29, 0.26, p-value < 0.05, respectively). Non-significant difference was noted in the microbial α-diversity and β-diversity in low and high soluble/insoluble dietary fiber.ConclusionsCurrent findings suggest that insoluble dietary-fiber intake is favorably correlated with the health of the human gut microbiota. However, further investigations are necessary to identify the effect of types of fiber on the specific species identified in this study.     

Regulation of body fat mass by the gut microbiota: Possible mediation by the brain

New insight suggests gut microbiota as a component in energy balance. However, the underlying mechanisms by which gut microbiota can impact metabolic regulation is unclear. A recent study from our lab shows, for the first time, a link between gut microbiota and energy balance circuitries in the hypothalamus and brainstem. In this article we will review this study further.     

The art of targeting gut microbiota for tackling human obesity

Recently, a great deal of interest has been expressed regarding strategies to tackle worldwide obesity because of its accelerated wide spread accompanied with numerous negative effects on health and high costs. Obesity has been traditionally associated with an imbalance in energy consumed when compared to energy expenditure. However, growing evidence suggests a less simplistic event in which gut microbiota plays a key role. Obesity, in terms of microbiota, is a complicated disequilibrium that presents many unclear complications. Despite this, there is special interest in characterizing compositionally and functionally the obese gut microbiota with the help of in vitro, animal and human studies. Considering the gut microbiota as a factor contributing to human obesity represents a tool of great therapeutic potential. This paper reviews the use of antimicrobials, probiotics, fecal microbial therapy, prebiotics and diet to manipulate obesity through the human gut microbiota and reveals inconsistencies and implications for future study.     

肠道和呼吸道菌群与肺部疾病的研究新进展

宿主微生物群落对机体局部以及系统免疫的影响已逐渐引起人们的关注,目前发现局部的微生物群落能够对机体远端部位的免疫能力造成影响。肠道和呼吸道菌群稳态对机体免疫系统发育以及抗病原微生物感染至关重要,肠道和呼吸道菌群失衡与炎症性疾病、代谢性疾病以及过敏性疾病密切相关。肠道和呼吸道菌群失衡会通过"肠—肺轴"的相互作用,引起免疫系统改变与急性、慢性肺部疾病的发生。在这篇综述中,我们对肠道微生物和呼吸道微生物在肠-肺轴中发挥作用的研究进展作一总结,并对从微生物角度进行疾病治疗干预的可能性进行分析。     

肠道菌群与相关疾病的研究进展

肠道菌群被称为人体的第二基因组,对机体营养物质的代谢、人体自身发育、免疫及疾病的发病都有着重要作用。了解肠道菌群在疾病中的作用,可为疾病的预防、诊断、治疗提供合理的依据。     

运动调控肠道菌群在阿尔茨海默病防治中的应用

阿尔茨海默病（Alzheimer's disease,AD）是一种起病隐匿且呈进行性发展的中枢神经系统退行性疾病,以记忆障碍、语言功能和其他认知能力衰退为主要症状,可导致患者日常生活能力下降,出现精神行为异常,给家庭和社会带来极大的负担。肠道菌群已被发现不仅是免疫和代谢健康的重要组成部分,而且对胃肠道和中枢神经系统的发育具有重要作用。运动医学作为一种新兴的治疗手段,能显著改善肠道菌群紊乱,调节脾胃功能,改善代谢和睡眠,延缓AD的进程。本文通过总结运动及其相关因素对肠道菌群的影响,探讨AD的预防和控制。

     

去卵巢小鼠肠道菌群和血脂的变化

目的 探讨去卵巢对小鼠肠道菌群和血脂的影响。 方法 12只10周龄C57BL/6小鼠随机分为2组:假手术组(SHAM组)和去卵巢组(OVX组),每组6只,进行12周的喂养。每2周测定小鼠体质量,12周后测肝脏指数、血清三酰甘油水平和游离脂肪酸水平,小肠进行病理学检查,收集小鼠粪便并在Illumina MiSeq测序平台进行16S rRNA基因测序检测。 结果 与SHAM组相比,OVX组小鼠体质量、肝脏指数、血清三酰甘油水平和游离脂肪酸水平明显增加(t=4.745,t=15.090,t=11.140,t=4.038,均P结论 去卵巢小鼠血脂升高和肠道菌群失衡,提示肠道菌群可能是预防和治疗雌激素缺乏后脂质代谢异常的潜在靶点。     

舍得老酒对大鼠肠屏障功能及肠道菌群的影响

探究舍得老酒对大鼠肠屏障功能及其肠道菌群构成的影响。

将28只SPF级180～220 g SD雄性大鼠随机分为4组（n = 7）：对照组、乙醇组、舍得老酒1组及舍得老酒2组。分别灌胃生理盐水、酒精（7.6 mL/kg）及舍得老酒（3.8 mL/kg和7.6 mL/kg 2个剂量）,连续灌胃4周。检测结肠紧密连接蛋白mRNA表达水平,血清炎症相关分子水平;采用流式细胞仪检测脾脏免疫细胞水平;采用测序检测粪便肠道菌群构成。

乙醇组大鼠紧密连接蛋白mRNA表达水平较低,血清中的肿瘤坏死因子-α浓度较高,白介素10浓度较低,而舍得老酒2个剂量组均不同程度地改善了乙醇对大鼠肠屏障功能的不良反应。舍得老酒7.6 mL/kg剂量组可能通过降低CD4⁺ T细胞比例而减少炎症的发生。舍得老酒3.8 mL/kg组大鼠肠道菌群alpha多样性高于其他3组。4组大鼠肠道菌群组成具有一定差异,门水平上,乙醇组拟杆菌门相对丰度较其他组高,厚壁菌门与拟杆菌门比值（F/B）低于其他3组;属水平上,乙醇组Ruminiclostridium_6、Prevotella_9及Lachnospiraceae_NK4A136_group丰度较对照组增加,舍得老酒3.8 mL/kg组的接近对照组,乙醇组Lactobacillus丰度降低,舍得老酒3.8 mL/kg组Lactobacillus丰度增加。

低剂量组舍得老酒可改善大鼠肠屏障功能,并可通过增加肠道菌群丰度及多样性、抑制部分肠道致病菌的生长及增加有益菌,从而起到一定的调节肠道菌群的作用。

     

维吾尔族新发2型糖尿病患者肠道 乳杆菌属和多形拟杆菌的定量研究

目的定量研究维吾尔族新发2型糖尿病(T2DM)患者和糖耐量正常(NGT)人群肠道中乳杆菌属(Lactobacillus genus)和多形拟杆菌(Bacteroides thetaiotaomicron)的相对水平。方法严格按照纳入标准、排除标准收集维吾尔族新发T2DM患者96例,NGT 98例。提取所有研究对象的粪便细菌总DNA后,采用16SrDNA基因实时荧光定量PCR(Real-time PCR)对乳杆菌属和多形拟杆菌的水平进行定量检测;运用Pearson相关性分析乳杆菌属与研究对象的BMI、腰围、臀围、收缩压(SBP)、舒张压(DBP)、空腹血糖(FBG)、甘油三酯(TG)、总胆固醇(TC)、高密度脂蛋白(HDL-C)和低密度脂蛋白(LDL-C)的相关性。结果 16SrDNA基因Real-time PCR结果显示:(1)与新疆维吾尔族NGT组相比,乳杆菌属水平在新发T2DM中较低,差异有统计学意义(t=8.557,P=0.000)。但是多形拟杆菌在两组差异无统计学意义(t=0.524,P=0.601);(2)新疆维吾尔族上述人群肠道中乳杆菌属水平与FBG呈负相关(r=-0.334,P=0.000),腰围呈负相关(r=-0.170,P=0.018),TC呈负相关(r=-0.178,P=0.013),TG呈负相关(r=-0.157,P=0.030),收缩压呈负相关(r=-0.255,P=0.000)。结论 Lactobacillus genus水平在肠道中降低可能与2型糖尿病的发病,血糖和血脂代谢有关,其机制需进一步研究探讨。     

蜜蜂肠道菌群定殖研究进展

肠道菌群在其宿主健康中发挥着各种各样的重要功能。蜜蜂是高度社会化的昆虫,其肠道菌群与大多数昆虫明显不同,由兼性厌氧和微好氧的细菌组成,具有高度保守性和专门的核心肠道微生物群。近年来的研究表明,蜜蜂肠道微生物群在代谢、免疫功能、生长发育以及保护机体免受病原体侵袭等方面起着重要作用,并已证实肠道微生物在蜜蜂健康和疾病中起着重要作用,肠道微生物群的破坏对蜜蜂健康会产生不利影响。本文综述了蜜蜂肠道菌群的特征及菌群定殖研究进展,介绍了蜜蜂的日龄、群体、季节等对蜜蜂肠道菌群定殖的影响,探讨了宿主的功能和新陈代谢对肠道菌群的影响。     

基于调节肠道菌群的功能性低聚糖改善肥胖的研究进展

肥胖是机体脂肪积聚过多的一种典型的能量过剩疾病,是导致2型糖尿病和心血管疾病等一系列代谢性疾病的主要原因之一,已成为威胁全球健康的重大公共卫生问题。肠道菌群作为机体能量代谢调控的重要参与者,在肥胖及相关代谢性疾病的发生发展中起着关键作用,通过饮食干预调节肠道菌群,进而改善机体健康状况将是未来的研究热点之一。已有研究表明,功能性低聚糖作为一类典型的新型益生元,可调节肠道菌群结构及其代谢产物的水平,影响机体能量代谢过程,改善肥胖及相关代谢性疾病。本文主要对肠道菌群在肥胖中的潜在作用机制,以及常见功能性低聚糖调节肠道菌群改善肥胖的作用效果进行综述,以期为通过靶向肠道菌群精准干预肥胖及相关代谢性疾病提供一些新的潜在防治策略。

     

Screening for lactobacilli with probiotic properties in the infant gut microbiota

Lactobacilli are believed to be beneficial for the human hosts and are currently being evaluated as potentially probiotic bacteria. In this study, Lactobacillus strains were isolated from infant faeces and were examined in vitro for potential probiotic properties. Faecal specimens from 63 healthy, full-term infants were collected at 4, 30 and 90 days after delivery. Seventy-four Lactobacillus strains were isolated and one or more different phenotypes from each infant (n = 44) were selected for further testing. The bacterial isolates were identified mainly as L. gasseri, L. crispatus, Lactobacillus paracasei, L. salivarius, L. fermentum after amplification and sequencing of 16s rRNA gene. The strains were examined for acid and bile tolerance, adhesion to Caco-2 cells, antibiotic susceptibility and antimicrobial activity against selected enteric pathogens. The great majority of the isolated lactobacilli were susceptible to ampicillin, amoxicillin/clavulanic acid, tetracycline, erythromycin, cephalothin, chloramphenicol and rifampicin. Resistance to vancomycin or bacitracin was detected to 34% of the strains. Twenty strains out of forty-four exhibited significant tolerance to bile salts. Those strains were subsequently tested for resistance to low pH conditions (pH 2 and 3). Interestingly, 85% (17 strains) of the tested lactobacilli remained unaffected at pH 3 after 3 h of incubation, 6 strains were found resistant at pH 2 after 1.5 h and only 2 strains found resistant after 3 h of incubation. Two of the strains were able to adhere to Caco-2 cells. In conclusion, two isolates fulfilled the in vitro probiotic criteria and are good candidates for further in vivo evaluation.     

Roles of the gut microbiota in severe SARS-CoV-2 infection

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has spread worldwide. The pathophysiological mechanisms linking gut dysbiosis and severe SARS-CoV-2 infection are poorly understood, although gut microbiota disorders are related to severe SARS-CoV-2 infections. The roles of the gut microbiota in severe SARS-CoV-2 infection were compared with those in respiratory viral infection, which is an easily understood and enlightening analogy. Secondary bacterial infections caused by immune disorders and antibiotic abuse can lead to dysregulation of the gut microbiota in patients with respiratory viral infections. The gut microbiota can influence the progression of respiratory viral infections through metabolites and the immune response, which is known as the gut–lung axis. Angiotensin-converting enzyme 2 is expressed in both the lungs and the small intestine, which may be a bridge between the lung and the gut. Similarly, SARS-CoV-2 infection has been shown to disturb the gut microbiota, which may be the cause of cytokine storms. Bacteria in the gut, lung, and other tissues and respiratory viruses can be considered microecosystems and may exert overall effects on the host. By referencing respiratory viral infections, this review focused on the mechanisms involved in the interaction between SARS-CoV-2 infections and the gut microbiota and provides new strategies for the treatment or prevention of severe SARS-CoV-2 infections by improving gut microbial homeostasis.