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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.
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1 Chinese Academy Sciences, Key Laboratory of Systems Biology, Center for Excellence in Molecular Cell Science, Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Shanghai, China (GRID:grid.9227.e) (ISNI:0000000119573309); Minhang Hospital, Fudan University, Institute of Fudan-Minhang Academic Health System, Shanghai, China (GRID:grid.8547.e) (ISNI:0000 0001 0125 2443)
2 Chinese Academy Sciences, Key Laboratory of Systems Biology, Center for Excellence in Molecular Cell Science, Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Shanghai, China (GRID:grid.9227.e) (ISNI:0000000119573309)
3 National Institute of Advanced Industrial Science and Technology, Molecular Profiling Research Center for Drug Discovery, Tokyo, Japan (GRID:grid.208504.b) (ISNI:0000 0001 2230 7538)
4 Shanghai Jiao Tong University School of Medicine, Shanghai Ninth People’s Hospital, Shanghai, China (GRID:grid.16821.3c) (ISNI:0000 0004 0368 8293)
5 Sherman College of Chiropractic, Boiling Springs, USA (GRID:grid.454677.3) (ISNI:0000 0004 0568 3760)
6 Chinese Academy Sciences, Key Laboratory of Systems Biology, Center for Excellence in Molecular Cell Science, Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Shanghai, China (GRID:grid.9227.e) (ISNI:0000000119573309); Chinese Academy of Sciences, Center for Excellence in Animal Evolution and Genetics, Kunming, China (GRID:grid.9227.e) (ISNI:0000000119573309); ShanghaiTech University, School of Life Science and Technology, Shanghai, China (GRID:grid.440637.2); Shanghai Research Center for Brain Science and Brain-Inspired Intelligence, Shanghai, China (GRID:grid.440637.2)