Abstract
Metabolic surgery has been increasingly recommended for obese diabetic patients, but questions remain as to its molecular mechanism that leads to improved metabolic parameters independently of weight loss from a network viewpoint. We evaluated the role of the Roux limb (RL) in Roux-en-Y gastric bypass (RYGB) surgery in nonobese diabetic rat models. Improvements in metabolic parameters were greater in the long-RL RYGB group. Transcriptome profiles reveal that amelioration of diabetes state following RYGB differs remarkably from both normal and diabetic states. According to functional analysis, RYGB surgery significantly affected a major gene group, i.e., the newly changed group, which represented diabetes-irrelevant genes abnormally expressed after RYGB. We hypothesize that novel “dysfunctions” carried by this newly changed gene group induced by RYGB rebalance diabetic states and contribute to amelioration of metabolic parameters. An unusual increase in cholesterol (CHOL) biosynthesis in RL enriched by the newly changed group was concomitant with ameliorated metabolic parameters, as demonstrated by measurements of physiological parameters and biodistribution analysis using [14C]-labeled glucose. Our findings demonstrate RYGB-induced “dysfunctions” in the newly changed group as a compensatory role contributes to amelioration of diabetes. Rather than attempting to normalize “abnormal” molecules, we suggest a new disease treatment strategy of turning “normal” molecules “abnormal” in order to achieve a new “normal” physiological balance. It further implies a novel strategy for drug discovery, i.e. targeting also on “normal” molecules, which are traditionally ignored in pharmaceutical development.
Highlights
Diabetes can induce a series of associated complications and increase the risk of several cancers[1,2], which affects both mortality and patient quality of life
Amelioration of diabetes was greater in the long-Roux limb (RL) Roux-en-Y gastric bypass (RYGB) group
We hypothesize that novel “dysfunctions” carried by this newly changed gene group induced by RYGB rebalance diabetic states and contribute to amelioration of metabolic parameters
Summary
Diabetes can induce a series of associated complications and increase the risk of several cancers[1,2], which affects both mortality and patient quality of life. Metabolic surgical treatments have been included as antidiabetic interventions for patients with diabetes and obesity by international diabetes organizations due to their rapid and long-term efficacy in reducing the medication burden and ameliorating diabetes complications (e.g., cardiovascular diseases and nonalcoholic fatty liver disease)[3,4,5]. Amelioration of metabolic parameters following bariatric/metabolic surgery has been supported by numerous studies on randomized clinical trials and an emerging consensus[3,4]. The metabolic impact of surgery involves multiple and complicated pathways, and few studies have explored the molecular mechanism of metabolic surgery from the perspective of systems biology
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