Dietary Factors in Prevention of Pediatric Escherichia coli Infection: A Model Using Domestic Piglets.

IF 3.1 3区 农林科学 Q1 VETERINARY SCIENCES Ilar Journal Pub Date : 2018-12-31 DOI:10.1093/ilar/ilz005
Yanhong Liu, Peng Ji
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引用次数: 3

Abstract

Enterotoxigenic Escherichia coli (ETEC) is the major etiological agent causing acute watery diarrhea that is most frequently seen in young children in lower-income countries. The duration of diarrheal symptom may be shortened by antibiotic treatment, but ETEC is relative refractory to common antibiotics. Burgeoning evidence suggests bioactive components that naturally occur in human milk (e.g., lysozyme and oligosaccharides) and plants (e.g., nondigestible carbohydrates and phytochemicals) contain antimicrobial functions are promising preventive measures to control ETEC infection. Although the exact protective mechanisms may vary for each compound and are still not completely understood, they generally act to (1) competitively inhibit the binding of pathogenic bacteria and toxins to gut epithelium; (2) directly kill pathogens; and (3) stimulate and/or enhance host mucosal and systemic immune defense against pathogenic microorganisms. An appropriate ETEC-challenge animal model is critical to evaluate the effect and unveil the mechanism of bioactive compounds in prevention of enteric infection. Despite wide application in biomedical research, rodents do not usually manifest typical clinical signs of enteric infections. The remarkable differences in digestive physiology, immune response, and gut microbiota between rodents and human beings necessitate the use of alternative animal models. Pigs are closely related to humans in terms of genomes, physiology, anatomy of gastrointestinal tracts, digestive enzymes, components of immune system, and gut microbiota. Like human infants and young children, nursing and nursery piglets are more susceptible to ETEC infection and reproduce the clinical signs as observed in humans. Hence, the ETEC-challenge piglet represents a valuable translational model to study pathogenesis and evaluate dietary factors (e.g., milk bioactive compounds, nondigestible carbohydrates, and phytochemicals) as preventive measures for ETEC infection in pediatrics.

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日粮因素对预防儿童大肠杆菌感染的影响:以家养仔猪为模型
产肠毒素大肠杆菌(ETEC)是引起急性水样腹泻的主要病原体,最常见于低收入国家的幼儿。抗生素治疗可缩短腹泻症状持续时间,但ETEC对常用抗生素相对难治。越来越多的证据表明,人乳中天然存在的生物活性成分(如溶菌酶和低聚糖)和植物(如不可消化的碳水化合物和植物化学物质)含有抗菌功能,是控制ETEC感染的有希望的预防措施。虽然每种化合物的确切保护机制可能各不相同,并且仍未完全了解,但它们通常起到(1)竞争性地抑制致病菌和毒素与肠道上皮的结合;(2)直接杀灭病原体;(3)刺激和/或增强宿主对病原微生物的粘膜和全身免疫防御。建立合适的ecc攻击动物模型对于评估生物活性化合物预防肠道感染的作用和揭示其机制至关重要。尽管在生物医学研究中广泛应用,但啮齿动物通常不会表现出典型的肠道感染临床症状。啮齿动物和人类在消化生理、免疫反应和肠道微生物群方面的显著差异需要使用替代动物模型。猪在基因组、生理、胃肠道解剖、消化酶、免疫系统成分和肠道微生物群等方面与人类密切相关。与人类婴幼儿一样,哺乳仔猪和保育仔猪更容易感染ETEC,并重现在人类中观察到的临床症状。因此,ETEC攻击仔猪为研究发病机制和评估饮食因素(如牛奶生物活性化合物、不可消化碳水化合物和植物化学物质)作为儿科ETEC感染预防措施提供了一个有价值的转化模型。
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来源期刊
Ilar Journal
Ilar Journal 农林科学-兽医学
CiteScore
5.10
自引率
20.00%
发文量
8
审稿时长
>18 weeks
期刊介绍: The ILAR Journal is the peer-reviewed, theme-oriented publication of the Institute for Laboratory Animal Research (ILAR), which provides timely information for all who study, use, care for, and oversee the use of animals in research. The journal publishes original articles that review research on animals either as direct subjects or as surrogates for humans. According to policy, any previously unpublished animal research reported in the ILAR Journal will have been conducted according to the scientific, technical, and humanely appropriate guidelines current at the time the research was conducted in accordance with the Guide for the Care and Use of Laboratory Animals or other guidance provided by taxonomically-oriented professional societies (e.g., American Society of Mammalogy) as referenced in the Guide.
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