Bariatric surgery is the most successful therapeutic approach to weight loss, but how it leads to weight loss, and how it resolves obesity-related complications, including type-2 diabetes, are poorly understood. This study, comprising two groups of individuals, one on a low-calorie diet (n = 5) and one undergoing bariatric surgery (n = 7), used both targeted and untargeted proteomic approaches to determine changes in protein levels pre- and post-intervention (i.e. 3-6 months later). Changes were observed in both circulating and excreted proteins following weight loss. Targeted multiplexed biochip arrays measured 12 plasma peptides/proteins involved in metabolism and inflammation: C-peptide, ferritin, interleukin-6, interleukin-1 alpha, resistin, insulin, tumor necrosis factor alpha, leptin, plasminogen-activator inhibitor-1, adiponectin, cystatin C, and C-reactive protein. Following a low-calorie diet, plasma insulin and C-reactive protein levels were significantly reduced (P = 0.045 and P = 0.030, respectively); adiponectin increased and leptin decreased following surgery (P = 0.014 and P = 0.005, respectively). Untargeted proteomic analysis employing 2D difference in-gel electrophoresis (DIGE) showed 28 protein spots with ≥1.5-fold changes in expression following weight loss by a low-calorie diet; comparison of pre- and post-intervention urine samples from the bariatric surgery group showed changes in excretion of 110 protein spots. The combination of targeted protein analysis by multiplexed arrays and an exploratory (i.e. an unbiased or discovery) proteomic assessment of hundreds of proteins offers valuable insights into the mechanistic differences between alternative weight-loss strategies. This is a powerful hypothesis-generating approach to study complex, multifactorial syndromes such as obesity. The findings that arise from these studies can then be validated in targeted, hypothesis-directed investigations.
Keywords: Obesity; bariatric surgery; low-calorie diet; multiplex biochip array; proteomics.