Philpott Martin, Mackay Laura, Ferguson Lynnette R, Forbes Davanea, Skinner Margot
Discipline of Nutrition, Faculty of Medical & Health Sciences, The University of Auckland, Private Bag 92019, Auckland, New Zealand.
Mutat Res. 2007 Sep 1;622(1-2):94-102. doi: 10.1016/j.mrfmmm.2007.04.013. Epub 2007 May 5.
Nutrigenomics seeks to understand the interplay between an individual's genes and their diet. This approach can potentially be harnessed to reduce the incidence or symptoms of chronic diseases, such as inflammatory bowel disease (IBD). It becomes desirable to interrogate the vast number of discrete compounds present in foods for their ability to influence the phenotype of a cell carrying a variant single nucleotide polymorphism (SNP). Here we describe two cell-based assays that can now be used to test the ability of food components or extracts, to overcome the functional effects of certain variant SNPs that may be important in human IBD. The first monitors the signal transduction pathways of key pattern recognition receptors, in which SNPs associated with IBD have been identified, and tests for food components or extracts that can modulate these pathways for potential therapeutic benefit. The second models the NOD2 3020insC SNP, which is the most common and highest risk variant in Crohn's disease, and examines the ability of food components or extracts to restore the normal phenotype in the mutant cell line. Such screens provide a scientific basis for the rational choice of foods to be more rigorously investigated in animal models of IBD.
营养基因组学旨在了解个体基因与饮食之间的相互作用。这种方法有可能被用于降低慢性疾病(如炎症性肠病,IBD)的发病率或减轻其症状。因此,探究食物中大量不同化合物影响携带单核苷酸多态性(SNP)变体的细胞表型的能力变得很有必要。在此,我们描述了两种基于细胞的检测方法,现在可用于测试食物成分或提取物克服某些在人类IBD中可能起重要作用的变体SNP功能影响的能力。第一种方法监测关键模式识别受体的信号转导途径,其中已鉴定出与IBD相关的SNP,并测试可调节这些途径以获得潜在治疗益处的食物成分或提取物。第二种方法模拟NOD2 3020insC SNP,这是克罗恩病中最常见且风险最高的变体,并研究食物成分或提取物在突变细胞系中恢复正常表型的能力。此类筛选为在IBD动物模型中更严格地研究食物的合理选择提供了科学依据。
