Non-Human Primate Model of Gluten-Sensitive Enteropathy

麸质敏感性肠病的非人类灵长类动物模型

• 批准号: 8732018
• 负责人: KAROL SESTAK
• 金额: $ 13.28万
• 依托单位: TULANE UNIVERSITY OF LOUISIANA
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-04-01 至 2015-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8732018
• 关键词: Adolescent; Alleles; American; Animal Model; Animals; Antibodies; Autoimmune Diseases; Barley; Biopsy; Body Weight decreased; Celiac Disease; Cereals; Chronic; Clinical; Clinical Research; Cysteine; DNA; Diarrhea; Diet; Digestion; Disease; Disease remission; Dose; Enzymes; Epithelium; Gastrointestinal tract structure; Genes; Genetic; Gliadin; Gluten; Haplotypes; Health; Human; Immune response; Immunity; Immunogenetics; Individual; Inflammation; Inflammatory; Ingestion; Intestinal Mucosa; Intestines; Lymphocyte; Macaca; Macaca mulatta; Measures; Modeling; Mus; National Institute of Diabetes and Digestive and Kidney Diseases; Oral; Pathogenesis; Pathologic; Patients; Peptides; Pilot Projects; Proteins; Recording of previous events; Recovery; Reporting; Sampling; Small Intestines; Sphingomonas; Symptoms; T-Lymphocyte; T-Lymphocyte Epitopes; Therapeutic; Tissues; Transgenic Mice; Villous Atrophy; Villus; Withdrawal; absorption; base; cytokine; feeding; follow-up; intestinal epithelium; intraepithelial; mucosa-associated lymphoid tissue; nonhuman primate; prolyl oligopeptidase; research study; skin lesion; synthetic peptide; transglutaminase 2

DESCRIPTION (provided by applicant): In humans, gluten-sensitive enteropathy (GSE) is typically found in individuals genetically predisposed to celiac disease (CD), and in rhesus monkeys as well as in humans it can be induced by a gluten-containing diet. We recently performed experiments where gluten-sensitive and control macaques were fed gluten- containing diets followed by gluten-free diets. Complete recovery was achieved in GSE macaques - based on withdrawal of gluten from their diet. Furthermore, we identified 2 DRB haplotypes and/or 4 DQ allelic pairs as candidate MHC II genes for immunogenetic association with gluten sensitivity in rhesus macaques. Although several useful models have been established to study CD, including transgenic mice expressing HLA-DQ2 allele, there is no satisfactory animal model that would fulfill both genetic and pathologic criteria of this autoimmune disease. We have partially characterized a rhesus GSE model. We believe that such a model will be extremely useful for studies of the immunopathogenesis and treatment of CD. To develop this model further, we plan to: Aim 1: Evaluate an association between clinical, histopathological and immunological surrogates of GSE in rhesus macaques. An association between clinical symptoms (diarrhea, weight loss, skin lesions, etc.), presence of AGA, anti-transglutaminase 2 (TG2) antibodies, villous atrophy, increased presence of IELs and inflammatory-cytokine producing intestinal T lymphocytes in macaques with clinical or subclinical GSE vs. controls will be evaluated. Aim 2: Confirm MHC II alleles that were identified in rhesus macaques as candidates for immunogenetic association with gluten sensitivity. DNA extracted from at least 100 gluten-sensitive and 100 control macaques of Indian origin will be examined for the association with 2 DRB haplotypes and/or 4 DQ allelic pairs that we recently identified as MHC II candidate alleles. We predict that analogous to celiac patients DQ2/8 association will also be confirmed in rhesus macaques with GSE. Aim 3: Evaluate the differences in a2-gliadin digestion between gluten sensitive and control macaques. In pilot study with gluten sensitive and control macaques, it was found that GSE animals but not controls, nor remitted animals, absorb undigested 33-mer across intestinal epithelium. Thus, it was proposed that systemic humoral immune response to dietary gluten is caused by absorption of undigested a2-gliadin across "leaky" epithelium in GSE macaques with proper MHC II type. Aim 4: Evaluate the oral enzyme treatments in rhesus macaques with GSE. MHC II-pre- selected macaques with gluten sensitivity will be first placed on a gluten-free diet to accomplish remission. In a follow-up gluten challenge, gluten sensitive macaques will be dosed with increasing levels of gluten and a fixed daily oral dose of prolyl endopeptidase from Sphingomonas capsulata, cysteine endoprotease EP-B2 from barley, and the two-enzymes together to evaluate their therapeutic potential.

描述(申请人提供)：在人类中，面筋敏感型肠病(GSE)通常在遗传上易患乳糜泻(CD)的个体中发现，在恒河猴和人类中都可以由含面筋的饮食诱发。我们最近进行了一项实验，让对面筋敏感的猕猴和对照组的猕猴分别喂以含面筋的饮食和不含面筋的饮食。基于停止饮食中的面筋，GSE猕猴实现了完全恢复。此外，我们确定了2个DRB单倍型和/或4个DQ等位基因对作为候选MHC II基因与恒河猴面筋敏感性的免疫遗传相关。虽然已经建立了一些有用的模型来研究CD，包括表达HLA-DQ2等位基因的转基因小鼠，但还没有一个令人满意的动物模型来同时满足这种自身免疫性疾病的遗传和病理标准。我们已经部分地刻画了恒河猴GSE模型。我们相信这样的模型对于CD的免疫发病机制和治疗的研究将是非常有用的。为了进一步发展这一模型，我们计划：目标1：评估猕猴GSE的临床、组织病理学和免疫学替代物之间的关系。将评估临床或亚临床GSE猕猴的临床症状(腹泻、体重减轻、皮肤损害等)、AGA的存在、抗转谷氨酰胺酶2(TG2)抗体、绒毛萎缩、IEL的存在以及产生炎性细胞因子的肠道T淋巴细胞与对照组之间的关系。目的：确定恒河猴MHC II等位基因与面筋蛋白敏感性相关的候选免疫遗传基因。从至少100只对面筋敏感的印度猕猴和100只对照印度猕猴中提取的DNA将被用来检测与我们最近确定为MHC II候选等位基因的2个DRB单倍型和/或4个DQ等位基因对的关联。我们预测，类似于乳糜泻患者的DQ2/8关联也将在患有GSE的恒河猴中得到证实。目的3：评价面筋敏感猕猴和对照猕猴在α-醇溶蛋白消化方面的差异。在对面筋敏感猕猴和对照猕猴的初步研究中，发现GSE动物，而不是对照，也不是缓解的动物，通过肠道上皮吸收未消化的33-聚体。因此，有人认为，GSE猕猴对食物面筋蛋白的体液免疫反应是由MHC II型正常的GSE猕猴未消化的α2-醇溶蛋白通过“渗漏”的上皮吸收引起的。目的：评价口服酶制剂治疗GSE猕猴的效果。MHC II-预先选择的对面筋敏感的猕猴将首先接受无面筋饮食，以实现缓解。在后续的面筋挑战中，将通过增加面筋水平和每日固定剂量的鞘氨醇单胞菌Pro内肽酶、大麦半胱氨酸内蛋白酶EP-B2和这两种酶一起给面筋敏感型猕猴服用，以评估它们的治疗潜力。

项目成果

Celiac and Non-Celiac Forms of Gluten Sensitivity: Shifting Paradigms of an Old Disease.

• DOI: 10.9734/bmrj/2013/6083
• 发表时间: 2013-10
• 期刊: British microbiology research journal
• 作者: Sestak K;Fortgang I
• 通讯作者: Fortgang I