ObjectiveTo establisht a gut microbiota mice model for chronic obstructive pulmonary disease (COPD) with fecal microbiota transplantation (FMT) and its evaluation.MethodsThe mice received FMT from healthy individuals, COPD Ⅰ-Ⅱ subjects, or COPD Ⅲ–Ⅳ subjects. After microbiota depletion, the FMT was performed by a single oral administration of 100 μL per mouse every other day, for a total of 14 times in 28 days. On the 29th day, the peripheral blood mononuclear cells were analyzed, the gut microbiota of mice before and after FMT was analyzed by 16S rRNA sequencing, and the mice model were evaluated.ResultsThe operational taxonomic units, Chao 1 and Shannon indexes of mice all decreased significantly after antibiotic treatment (P<0.001), but increased significantly after FMT from healthy individuals, COPD Ⅰ-Ⅱ subjects, or COPD Ⅲ–Ⅳ subjects (P<0.05 or P<0.01). The abundance of Firmicutes, Proteobacteria and Actinobacteria in the guts of the mice in the healthy human FMT group, COPD Ⅰ-Ⅱ FMT group and COPD Ⅲ-Ⅳ FMT group were significantly different from those of the control group who only received phosphate buffer saline instead of FMT (P<0.05 or P<0.01). The auxiliary T lymphocytes and cytotoxic T lymphocytes were higher, but B lymphocytes decreased in the peripheral blood of the mice in the COPD Ⅰ-Ⅱ FMT group and COPD Ⅲ-Ⅳ FMT group (P<0.05 or P<0.01).ConclusionFMT can successfully establish a COPD gut microbiota research model.
【Abstract】Objective To investigate the contribution of occupational exposure to dusts / gases / fumes to chronic obstructive pulmonary disease( COPD) and respiratory symptoms in China. Methods Based on the crosssectional survey of COPD which was conducted in urban and rural areas of Beijing, Shanghai, Guangdong,Liaoning, Tianjin, Chongqing and Shanxi for residents aged 40 years or older, the association between the occupational exposure to dusts/ gases/ fumes and COPD and respiratory symptoms was analyzed. The recruited populations were interviewed with questionnaire and were tested with spirometry. The post-bronchodilators FEV1 /FVC lt; 70% was used as diagnostic criteria of COPD. Having any cough, sputum, wheezing and dyspnea was defined as having respiratory symptoms. Results The prevalence of occupational exposure to dusts/ gases /fumes was 20. 5% . As shown by multiple-variables Logistic regression analyses, occupational exposure to dusts / fumes /gases [ OR = 1. 20 ( 1. 04, 1. 39) ] and dusts of grain [ 1. 48 ( 1. 18, 1. 86) ] were associated with COPD;occupational exposure to dusts / fumes / gases [ OR = 1. 37( 1. 25, 1. 49) ] , hard-rock mining [ OR = 2. 31( 1. 67,3. 20) ] , coal mining [ OR = 1. 71( 1. 09, 2. 70) ] , dusts of cement [ OR = 1. 92( 1. 47, 2. 52) ] , chemical or plastics manufacturing [ OR =1. 58( 1. 37, 1. 83) ] , spray painting [ OR= 1. 46( 1. 16, 1. 84) ] , and other dusts or fumes [ OR = 1. 46 ( 1. 29, 1. 64 ) ] were associated with the respiratory symptoms. Smoking and occupational exposure to dusts / gases / fumes had synergic effects on the increasing risk of respiratory symptoms. The populationattributable risk ( PAR) of exposure to dusts / gases / fumes was 3. 94% and 7. 05% for COPD and respiratory symptoms respectively. Conclusions Occupational exposure to dusts /gases /fumes is associated with COPD and respiratory symptoms. Smoking and occupational exposure to dusts/ gases /fumes may have synergic effects on respiratory symptoms.