DNA-driven nutritional therapy of inflammatory bowel disease.

Inflammatory bowel disease (IBD) consists of two main disorders, ulcerative colitis and Crohn's disease, that cause chronic, recurrent inflammation of the intestine. An inappropriate immune response to the enteric ecosystem has been postulated to cause IBD. Genomewide association studies provide the information of diverse genetic variations and susceptibilities to patients with IBD. Through the application of these studies, the pathogenesis of IBD may result in part from genetic abnormalities that regulate epithelial barrier function and innate and adaptive immune responses. Crohn's disease shows strong association with CARD15, ATG15L1, and IRGM, which are involved in the innate immunity. In the adaptive immune response, IL23R, MST1, IL12B, and STAT3 polymorphisms are associated with Crohn's disease and ulcerative colitis. Current pharmacologic treatment of IBD, including 5-aminosalycylate, steroids, and immunomodulator therapy, are mainly aimed at suppressing inflammation non-specifically, except biologic therapies such as anti-tumor necrosis factor molecule, which block specific proinflammatory molecules. For nutritional issues in IBD, the mainstay of therapy has been supportive, with particular attention paid to the prevention, recognition, and therapy of nutritional deficiencies, and individual outcomes to specific dietary factors have been controversial. Parenteral nutritional support and exclusionary diets have been investigated and are not the subject of this review. The emerging concepts of nutrition-gene interaction gave birth to unique scientific fields, nutrigenetics and nutrigenomics. These studies provide information about 1) the genetic variability that induces an individual's response to nutrition according to particular states of health and disease and 2) changes in gene expression that develop as a result of nutrition-gene interaction. For IBD, the role of diet in the regulation of the immune response against gut flora is the subject of current intensive evaluation. These approaches may lead clinicians to derive a personalized nutritional prescription based on individual genetic variations and may result in a significant impact on IBD treatment.