Yikai Shao1, Qiwei Shen1, Rong Hua1, Simon S Evers2, Kai He1, Qiyuan Yao3. 1. Center for Obesity and Metabolic Surgery, Huashan Hospital of Fudan University, Shanghai, China. 2. Department of Surgery, University of Michigan, Ann Arbor, Michigan. 3. Center for Obesity and Metabolic Surgery, Huashan Hospital of Fudan University, Shanghai, China. Electronic address: hs_cbms@sina.cn.
Abstract
BACKGROUND: Disruptions of the composition and diurnal oscillation of gut microbiota are involved in metabolic disorders. OBJECTIVES: To identify alterations in both the composition and diurnal oscillation of gut microbiota after high-fat diet (HFD) feeding and sleeve gastrectomy (SG) related to host metabolic status. SETTING: University laboratories. METHODS: Twenty-one 6-week-old male C57 BL/6 J mice were randomized on an HFD (n = 14) or normal chow (NC, n = 7). After 14 weeks of feeding, HFD-induced obese mice were randomized to receive either SG or sham surgery (n = 7 in each group). Fecal samples were collected every 6 hours over a 24-hour period at 14 weeks of NC or HFD feeding and subsequently 8 weeks after surgery. The composition and diurnal oscillation of gut microbiota were characterized using next-generation Illumina sequencing of 16 S rDNA. RESULTS: HFD feeding led to adiposity, disrupted composition, and impaired diurnal oscillation of gut microbiota relative to NC. After surgery, SG mice had considerable weight loss, improved glucose tolerance, and insulin sensitivity compared with sham mice. SG restored the reduced richness and disruptions in the composition of gut microbiota. The diminished diurnal oscillation of gut microbiota was improved after SG. CONCLUSION: SG not only changed the disrupted composition of gut microbiota toward that of NC feeding, but also improved the dampened diurnal oscillation of gut microbiota due to HFD feeding.
BACKGROUND: Disruptions of the composition and diurnal oscillation of gut microbiota are involved in metabolic disorders. OBJECTIVES: To identify alterations in both the composition and diurnal oscillation of gut microbiota after high-fat diet (HFD) feeding and sleeve gastrectomy (SG) related to host metabolic status. SETTING: University laboratories. METHODS: Twenty-one 6-week-old male C57 BL/6 J mice were randomized on an HFD (n = 14) or normal chow (NC, n = 7). After 14 weeks of feeding, HFD-induced obesemice were randomized to receive either SG or sham surgery (n = 7 in each group). Fecal samples were collected every 6 hours over a 24-hour period at 14 weeks of NC or HFD feeding and subsequently 8 weeks after surgery. The composition and diurnal oscillation of gut microbiota were characterized using next-generation Illumina sequencing of 16 S rDNA. RESULTS: HFD feeding led to adiposity, disrupted composition, and impaired diurnal oscillation of gut microbiota relative to NC. After surgery, SG mice had considerable weight loss, improved glucose tolerance, and insulin sensitivity compared with sham mice. SG restored the reduced richness and disruptions in the composition of gut microbiota. The diminished diurnal oscillation of gut microbiota was improved after SG. CONCLUSION: SG not only changed the disrupted composition of gut microbiota toward that of NC feeding, but also improved the dampened diurnal oscillation of gut microbiota due to HFD feeding.
Authors: Lee D Ying; Gregory A Breuer; Matthew O Hubbard; Geoffrey S Nadzam; John Hwa; Kathleen A Martin Journal: Obes Surg Date: 2019-02 Impact factor: 4.129