Obesity phenotypes are preserved in intestinal stem cell enteroids from morbidly obese patients

Abstract

AbstractObesity and obesity-related comorbidities are significant health care challenges. Bariatric surgery (BS) is the most effective therapy for treating obesity and type 2 diabetes. A barrier in the development of therapeutic alternatives is incomplete mechanistic understanding of the benefits of BS and the lack of human intestinal models that recapitulate the pathophysiology of obesity. Using adult intestinal stem cell-derived enteroid cultures established from healthy lean subjects and morbidly obese patients, including post-BS cases, four phenotypes correlating patient BMI and intestinal glucose absorption were identified suggesting that enteroids retain patient phenotype heterogeneity associated with healthy and diseased state. In a sub-population of obese patients, increased dietary glucose absorption and gluconeogenesis was due to significantly higher expression of intestinal carbohydrate transporters (SGLT1, GLUT2 and GLUT5) and gluconeogenic enzymes (PEPCK1 and G6Pase) compared to enteroids from lean subjects that demonstrated low glucose absorption and lacked gluconeogenesis. Enteroids established from successful BS cases exhibited low glucose absorption similar to that observed in lean subjects. These data show that human enteroids preserve the patient phenotype in long-term cultures and represent a reliable preclinical model to study the heterogeneity of the obesity mechanisms, which is necessary to determine the efficacy of therapeutic interventions.