The Impact of Microbiome Composition, Diversity, and Function on Enteric Disease

微生物组的组成、多样性和功能对肠道疾病的影响

• 批准号: 8309363
• 负责人: Shannon D. Manning
• 金额: $ 39.52万
• 依托单位: MICHIGAN STATE UNIVERSITY
• 依托单位国家: 美国
• 资助国家: 美国
• 起止时间: 至
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/8309363
• 关键词: 5 year old; Acute; Affect; Age; Antibiotic Resistance; Antibiotics; Campylobacter; Case Study; Cattle; Cell Line; Cessation of life; Characteristics; Child; Clinical; Colitis; Communities; Development; Diarrhea; Diet; Disease; Enteral; Epithelial Cells; Escherichia; Escherichia coli; Feces; Frequencies; Future; Gastrointestinal tract structure; Gender; Gene Expression; Gene Expression Profile; Genes; Genetic; Genotype; Goals; Growth; Health; Hospitalization; Human; Immune response; Immunoglobulin A; Individual; Infection; Inflammatory Response; Intestines; Kidney Failure; Lead; Mammary gland; Metagenomics; Microbe; Morbidity - disease rate; Mus; Pathogenesis; Patients; Phylogenetic Analysis; Prevention strategy; Process; Production; Public Health; Resistance; Role; Salmonella; Secretory Immunoglobulin A; Shigella; Single Nucleotide Polymorphism; Structure; Variant; Virulence; Volatile Fatty Acids; cost; enteric pathogen; foodborne; foodborne infection; member; microbial; microbial community; microbiome; mortality; mutant; nervous system disorder; pathogen; prevent; response; transmission process; treatment strategy

Foodborne infections are estimated to cause >76 million illnesses, 300,000 hospitalizations and 5,000 deaths in the U.S. each year. Salmonella, Campylobacter, Shigella, and enterohemmorhagic Escherichia coli (EHEC) cause most infections, particularly in children <5 years of age. These four pathogens contribute to a wide range of illnesses including both bloody and non-bloody diarrhea, but also cause kidney failure, neurological disorders and death in some cases. For most enteric bacterial pathogens, the disease process is initiated by transmission to a susceptible host, passage through the gut, and attachment to host epithelial cells lining the gastrointestinal tract Most pathogens have evolved a variety of specialized mechanisms that enhance this process, and in several cases, specific genotypes have been shown to cause more severe disease than others. While bacterial characteristics are clearly important, the role of the host in disease pathogenesis should not be overlooked, as the interplay between different pathogens and host microbial communities is likely to be important for disease development. Here, we propose to use pyrosequencing combined with metagenomics to investigate the impact that these four common diarrheal pathogens have on the composition and function of the intestinal microbiome. We will analyze stool DNAs from 200 healthy individuals without diarrhea and make comparisons to 800 individuals with diarrhea caused by EHEC, Salmonella, Campylobacter, and Shigella. The specific aims are: (1) Demonstrate that the composition, diversity and structure of the intestinal microbial community and the presence and expression of key virulence and antibiotic resistance genes impacts diarrheal disease caused by different enteric bacterial pathogens; (2) Determine that enteric disease profoundly affects the abundance of community members, the production and expression of microbiota by-products, and the distribution and diversity of functional marker genes (e.g., short chain fatty acids); and (3) Demonstrate that specific genetic and phenotypic characteristics of different enteric pathogens will more frequently and drastically alter the microbiome in patients with enteric disease. The proposed study will enhance our understanding of how the microbiome is impacted by infection with common enteric pathogens while controlling for gender, age, microbiota compositional and functional profiles, host immune responses, and bacterial characterisfics. Beneficial microbial communities, microbes and microbial products important for preventing enteric disease will be identified, which in turn, could guide future prevention and treatment strategies.

据估计，在美国，食源性感染每年导致7600万人患病，30万人住院，5000人死亡。沙门氏菌、弯曲杆菌、志贺氏菌和肠出血性大肠杆菌(EHEC)引起大多数感染，特别是在5岁的儿童中。这四种病原体导致一系列疾病，包括出血性和非出血性腹泻，但在某些情况下也会导致肾衰竭、神经功能障碍和死亡。对于大多数肠道细菌病原体来说，疾病过程是通过传播到敏感宿主，通过肠道，并附着到胃肠道内的宿主上皮细胞来启动的。大多数病原体已经进化出各种专门的机制来加强这一过程，在某些情况下，特定的基因类型被证明比其他基因导致更严重的疾病。虽然细菌特征显然很重要，但宿主在疾病发病中的作用不应被忽视，因为不同病原体和宿主微生物群落之间的相互作用可能对疾病的发展很重要。在这里，我们建议使用焦磷酸测序和元基因组学相结合的方法来研究这四种常见的腹泻病原体对肠道微生物组的组成和功能的影响。我们将分析200名没有腹泻的健康人的粪便DNA，并与800名由EHEC、沙门氏菌、弯曲杆菌和志贺氏菌引起的腹泻患者进行比较。其具体目的是：(1)证明肠道微生物群落的组成、多样性和结构以及关键毒力和抗药性基因的存在和表达对不同肠道细菌病原体引起的腹泻疾病产生影响；(2)确定肠道疾病深刻影响群落成员的丰度、微生物区系副产物的生产和表达以及功能标记基因(如短链脂肪酸)的分布和多样性；以及(3)证明不同肠道病原体的特定遗传和表型特征将更频繁和彻底地改变肠道疾病患者的微生物群。拟议的研究将加强我们对微生物群如何受到常见肠道病原体感染的影响的理解，同时控制性别、年龄、微生物区系组成和功能谱、宿主免疫反应和细菌特性。将确定对预防肠道疾病重要的有益微生物群落、微生物和微生物产品，这反过来又可以指导未来的预防和治疗战略。