Nealon Nora Jean, Yuan Lijuan, Yang Xingdong, Ryan Elizabeth P
Nutrition and Toxicology Laboratory, Department of Environmental and Radiological Health Sciences, College of Veterinary Medicine and Biomedical Sciences, Colorado State University, Fort CollinsCO, USA.
Yuan Laboratory, Department of Biomedical Sciences and Pathobiology, Virginia-Maryland Regional College of Veterinary Medicine, Virginia Polytechnic Institute and State University, BlacksburgVA, USA.
Front Microbiol. 2017 Apr 21;8:653. doi: 10.3389/fmicb.2017.00653. eCollection 2017.
Human rotavirus (HRV) is a leading cause of severe childhood diarrhea, and there is limited vaccine efficacy in the developing world. Neonatal gnotobiotic pigs consuming a prophylactic synbiotic combination of probiotics and rice bran (Pro+RB) did not exhibit HRV diarrhea after challenge. Multiple immune, gut barrier protective, and anti-diarrheal mechanisms contributed to the prophylactic efficacy of Pro+RB when compared to probiotics (Pro) alone. In order to understand the molecular signature associated with diarrheal protection by Pro+RB, a global non-targeted metabolomics approach was applied to investigate the large intestinal contents and serum of neonatal gnotobiotic pigs. The ultra-high performance liquid chromatography-tandem mass spectrometry platform revealed significantly different metabolites (293 in LIC and 84 in serum) in the pigs fed Pro+RB compared to Pro, and many of these metabolites were lipids and amino acid/peptides. Lipid metabolites included 2-oleoylglycerol (increased 293.40-fold in LIC of Pro+RB, = 3.04E-10), which can modulate gastric emptying, andhyodeoxycholate (decreased 0.054-fold in the LIC of Pro+RB, = 0.0040) that can increase colonic mucus production to improve intestinal barrier function. Amino acid metabolites included cysteine (decreased 0.40-fold in LIC, = 0.033, and 0.62-fold in serum, = 0.014 of Pro+RB), which has been found to reduce inflammation, lower oxidative stress and modulate mucosal immunity, and histamine (decreased 0.18-fold in LIC, = 0.00030, of Pro+RB and 1.57-fold in serum, = 0.043), which modulates local and systemic inflammatory responses as well as influences the enteric nervous system. Alterations to entire LIC and serum metabolic pathways further contributed to the anti-diarrheal and anti-viral activities of Pro+RB such as sphingolipid, mono/diacylglycerol, fatty acid, secondary bile acid, and polyamine metabolism. Sphingolipid and long chain fatty acid profiles influenced the ability of HRV to both infect and replicate within cells, suggesting that Pro+RB created a protective lipid profile that interferes with HRV activity. Polyamines act on enterocyte calcium-sensing receptors to modulate intracellular calcium levels, and may directly interfere with rotavirus replication. These results support that multiple host and probiotic metabolic networks, notably those involving lipid and amino acid/peptide metabolism, are important mechanisms through which Pro+RB protected against HRV diarrhea in neonatal gnotobiotic pigs.
人类轮状病毒(HRV)是导致儿童严重腹泻的主要原因,并且在发展中国家疫苗效力有限。食用益生菌和米糠预防性合生元组合(Pro+RB)的新生无菌猪在受到攻击后未出现HRV腹泻。与单独使用益生菌(Pro)相比,多种免疫、肠道屏障保护和止泻机制促成了Pro+RB的预防效果。为了了解与Pro+RB预防腹泻相关的分子特征,采用了一种全局非靶向代谢组学方法来研究新生无菌猪的大肠内容物和血清。超高效液相色谱-串联质谱平台显示,与Pro组相比,喂食Pro+RB的猪体内有显著不同的代谢物(大肠内容物中有293种,血清中有84种),其中许多代谢物是脂质和氨基酸/肽。脂质代谢物包括2-油酰甘油(在Pro+RB组的大肠内容物中增加了293.40倍,P = 3.04E-10),其可调节胃排空,以及猪去氧胆酸(在Pro+RB组的大肠内容物中减少了0.054倍,P = 0.0040),其可增加结肠黏液分泌以改善肠道屏障功能。氨基酸代谢物包括半胱氨酸(在Pro+RB组的大肠内容物中减少了0.40倍,P = 0.033,在血清中减少了0.62倍,P = 0.014),已发现其可减轻炎症、降低氧化应激并调节黏膜免疫,以及组胺(在Pro+RB组的大肠内容物中减少了0.18倍,P = 0.00030,在血清中增加了1.57倍,P = 0.043),其可调节局部和全身炎症反应以及影响肠神经系统。整个大肠内容物和血清代谢途径的改变进一步促成了Pro+RB的止泻和抗病毒活性,如鞘脂、单/二酰甘油、脂肪酸、次级胆汁酸和多胺代谢。鞘脂和长链脂肪酸谱影响HRV在细胞内感染和复制的能力,这表明Pro+RB产生了一种保护性脂质谱,可干扰HRV活性。多胺作用于肠上皮细胞钙敏感受体以调节细胞内钙水平,并可能直接干扰轮状病毒复制。这些结果支持多种宿主和益生菌代谢网络,尤其是那些涉及脂质和氨基酸/肽代谢的网络,是Pro+RB保护新生无菌猪免受HRV腹泻影响的重要机制。
