Route of Nutrition and Enteric Nervous System Effects on Innate Mucosal Defense

营养途径和肠神经系统对先天粘膜防御的影响

• 批准号: 8449952
• 负责人: KENNETH A KUDSK
• 金额: --
• 依托单位: WM S. MIDDLETON MEMORIAL VETERANS HOSP
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-04-01 至 2016-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8449952
• 关键词: Adrenergic Fibers; Affect; Animal Feed; Animals; Anti-Bacterial Agents; Antiviral Agents; B-Lymphocytes; Bacteria; Bethanechol; Bombesin; CD4/CD8 ratio procedure; Cell Adhesion; Cell Adhesion Molecules; Cell physiology; Cells; Clinical; Colitis; Critical Illness; Cytoplasmic Granules; Data; Defect; Defense Mechanisms; Defensins; Depressed mood; Deterioration; Development; Diet; Enteral; Enteral Feeding; Enteric Nervous System; Epithelial Cells; Escherichia coli; Failure; Gastrointestinal tract structure; Growth; Gut associated lymphoid tissue; Homeostasis; Immune; Immune system; Immunity; Immunoglobulin A; Immunoglobulins; Immunologics; In Vitro; Inbred ICR Mice; Incidence; Infection; Inflammatory; Interleukin-10; Interleukin-4; Intestines; Intravenous; Knockout Mice; Laboratories; Lamina Propria; Liquid substance; Lymphocyte; Lymphoid Tissue; Morbidity - disease rate; Mucous body substance; Muramidase; Mus; Natural Immunity; Neuropeptides; Nosocomial Infections; Outcome; Paneth Cells; Parenteral Nutrition; Patients; Phospholipase A2; Play; Population; Predisposition; Production; Research; Research Personnel; Role; Route; Secretory Immunoglobulin A; Secretory Vesicles; Sepsis; Source; Stress; Structure of aggregated lymphoid follicle of small intestine; Study models; Surface; System; T-Lymphocyte; Testing; Tissues; Trauma; Veterans; Virulence; Virulent; Work; acquired immunity; alpha-Defensins; bactericide; base; cholinergic; cost; cytokine; feeding; human PLA2G4A protein; improved; injured; male; novel; nutrition; pathogen; pathogenic bacteria; prevent; respiratory

DESCRIPTION (provided by applicant): Hospital-acquired infections significantly increase the cost and morbidity of critically ill and critically injured patients. Many of the inflammatory and infection complications appear to be caused by overgrowth and increased virulence of bacteria within the patient's intestine. Two immunologic systems - acquired and the innate immunity - provide immune protection against bacteria to control them. Route and type of nutrition influence both systems. This laboratory defined defects in acquired immune defenses when the gut is not fed during parenteral nutrition (PN). Recently, we discovered defects in innate mucosal defenses and tracked these defects to failure to stimulate the enteric nervous system (ENS). We showed that providing ENS neuropeptides maintains aspects of both acquired and the innate immunity. There are 4 specific aims: Specific Aim 1: To determine whether increasing ENT stimulation or the administration of the neuropeptide, bombesin (BBS), in PN-fed mice increases intra-luminal and intra-Paneth cell innate immune molecules including lysozyme and ¿ defensin levels compared with PN feeding alone. The Paneth cells are the source of an important innate immune molecule, secretory phospholipase A2 (sPLA2). Our data show 1) a decrease in number and size of Paneth cell granules and sPLA2 in PN-fed mice compared with chow-fed mice and 2) that BBS given to PN-fed mice increases size of these granules. We hypothesize that ENS controls innate immunity. We will vary route of nutrition and treat PN-fed mice with BBS to confirm our data. Since Paneth granules contain other molecules besides sPLA2 which play a role in innate immunity, we will also investigate the effects of neuropeptides on lysozymes and ¿ defensins in addition to sPLA2. Specific Aim 2: To determine the effect of BBS with and without cholinergic stimulation on the bactericidal function of small intestinal fluids in PN-fed mice. Our preliminary data show that BBS increases the size of Paneth cell granules but does not increase the depressed sPLA2 gut levels in PN-fed mice. Our preliminary data show that cholinergic stimulation is required for granule release from Paneth cells. To test our hypothesis that both neuropeptides (for granule production) and cholinergic stimulation (for release) are necessary, we will determine the effect of neuropeptides with and without cholinergic stimulation on release of innate immune molecules and will determine their bactericidal potency in vitro in PN-fed mice. Specific Aim 3: To determine the effect of PN with or without BBS stimulation and with and without bethanecol stimulation on invasion of intestinal epithelial cells in culture by a virulent bacterial pathogen. Other investigators showed that stress, PN, and other factors stimulate gut bacteria to increase virulence and attack host tissues. We will investigate the ability of neuropeptides and cholinergic stimulation to prevent development of bacterial pathogen virulence using a model that studies the invasion of intestinal epithelial cells in culture with E. coli. Specific Aim 4: To examine th effect of BBS on acquired immunity (GALT cell populations & sIgA); innate immunity (sPLA2, lysozymes, bactericidal function of luminal secretions, and invasion of epithelial cells in culture by a virulent pathogen); bacterial colonization; and development of colitis in knockout mice lacking an ENS. To confirm validity of Specific Aims 1 & 3, this work will examine the use of neuropeptides in an ENS-deficient animal to determine if administering ENS products eliminates or palliates lethal colitis that develops. The proposed studies will provide mechanistic details about the role of the ENS in innate mucosal defenses and will identify novel agents to maintain normal gut homeostasis in stressed animals that are not fed enterally. We expect these studies will provide advances in our understanding of mucosal defenses and be highly relevant to critically injured and critically ill Veterans.

描述（由申请人提供）： 医院获得性感染显著增加了危重病和重伤患者的费用和发病率。许多炎症和感染并发症似乎是由患者肠道内细菌的过度生长和毒性增加引起的。两种免疫系统-获得性免疫和先天免疫-提供针对细菌的免疫保护以控制它们。营养途径和类型影响这两个系统。该实验室定义了在肠外营养（PN）期间肠道不进食时获得性免疫防御的缺陷。最近，我们发现了先天性粘膜防御的缺陷，并追踪这些缺陷导致无法刺激肠神经系统（ENS）。我们表明，提供ENS神经肽维持获得性和先天性免疫的方面。有四个具体目标：具体目标1：为了确定增加ENT刺激或给予神经肽蛙皮素（BBS），在PN喂养的小鼠中，与单独PN喂养相比，是否增加了腔内和潘氏细胞内的先天免疫分子，包括溶菌酶和防御素水平。潘氏细胞是一种重要的先天性免疫分子分泌型磷脂酶A2（sPLA2）的来源。我们的数据显示：1）与普通饲料喂养的小鼠相比，PN喂养的小鼠中潘氏细胞颗粒和sPLA2的数量和大小减少，2）给予PN喂养的小鼠的BBS增加了这些颗粒的大小。我们假设ENS控制先天免疫。我们将改变营养途径，并用BBS治疗PN喂养的小鼠以证实我们的数据。由于潘氏颗粒含有除sPLA2之外的在先天免疫中发挥作用的其他分子，因此我们还将研究除sPLA2之外的神经肽对溶菌酶和防御素的影响。 具体目标二：确定BBS在有和没有胆碱能刺激的情况下对PN喂养小鼠小肠液杀菌功能的影响。我们的初步数据表明，BBS增加的潘氏细胞颗粒的大小，但不增加降低的sPLA2肠PN喂养小鼠的水平。我们的初步数据表明，胆碱能刺激所需的颗粒释放潘氏细胞。为了检验我们的假设，即神经肽（用于颗粒产生）和胆碱能刺激（用于释放）是必要的，我们将确定有和没有胆碱能刺激的神经肽对先天性免疫分子释放的影响，并将确定它们在PN喂养小鼠中的体外杀菌效力。 具体目标3：确定有或无BBS刺激的PN以及有或无对氨基甲酸乙酯刺激的PN对培养物中肠上皮细胞由毒性细菌病原体侵袭的影响。 其他研究人员表明，压力，PN和其他因素刺激肠道细菌增加毒力和攻击宿主组织。我们将研究神经肽和胆碱能的能力， 刺激，以防止细菌病原体毒力的发展，使用一个模型，研究肠上皮细胞的入侵，在培养与E。杆菌 具体目标4：检测BBS对获得性免疫（GALT细胞群和sIgA）、先天性免疫（sPLA2、溶菌酶、腔分泌物的杀菌功能和培养中上皮细胞的侵袭）的影响 由致命病原体）;细菌定植;为了证实特异性目的1和3的有效性，这项工作将检查神经肽在ENS缺陷动物中的使用，以确定施用ENS产品是否消除或减轻发展的致死性结肠炎。 拟议的研究将提供关于ENS在先天性粘膜防御中的作用的机制细节，并将确定新的药物，以维持未经肠喂养的应激动物的正常肠道稳态。我们希望这些研究将为我们对粘膜防御的理解提供进展，并与严重受伤和危重退伍军人高度相关。