Haro Carmen, Rangel-Zúñiga Oriol A, Alcalá-Díaz Juan F, Gómez-Delgado Francisco, Pérez-Martínez Pablo, Delgado-Lista Javier, Quintana-Navarro Gracia M, Landa Blanca B, Navas-Cortés Juan A, Tena-Sempere Manuel, Clemente José C, López-Miranda José, Pérez-Jiménez Francisco, Camargo Antonio
Lipids and Atherosclerosis Unit, GC9 Nutrigenomics. IMIBIC/Reina Sofia University Hospital/University of Cordoba, Cordoba, Spain.
CIBER Fisiopatología de la Obesidad y Nutrición (CIBEROBN), Instituto de Salud Carlos III, Cordoba, Spain.
PLoS One. 2016 May 26;11(5):e0154090. doi: 10.1371/journal.pone.0154090. eCollection 2016.
Intestinal microbiota changes are associated with the development of obesity. However, studies in humans have generated conflicting results due to high inter-individual heterogeneity in terms of diet, age, and hormonal factors, and the largely unexplored influence of gender. In this work, we aimed to identify differential gut microbiota signatures associated with obesity, as a function of gender and changes in body mass index (BMI). Differences in the bacterial community structure were analyzed by 16S sequencing in 39 men and 36 post-menopausal women, who had similar dietary background, matched by age and stratified according to the BMI. We observed that the abundance of the Bacteroides genus was lower in men than in women (P<0.001, Q = 0.002) when BMI was > 33. In fact, the abundance of this genus decreased in men with an increase in BMI (P<0.001, Q<0.001). However, in women, it remained unchanged within the different ranges of BMI. We observed a higher presence of Veillonella (84.6% vs. 47.2%; X2 test P = 0.001, Q = 0.019) and Methanobrevibacter genera (84.6% vs. 47.2%; X2 test P = 0.002, Q = 0.026) in fecal samples in men compared to women. We also observed that the abundance of Bilophila was lower in men compared to women regardless of BMI (P = 0.002, Q = 0.041). Additionally, after correcting for age and sex, 66 bacterial taxa at the genus level were found to be associated with BMI and plasma lipids. Microbiota explained at P = 0.001, 31.17% variation in BMI, 29.04% in triglycerides, 33.70% in high-density lipoproteins, 46.86% in low-density lipoproteins, and 28.55% in total cholesterol. Our results suggest that gut microbiota may differ between men and women, and that these differences may be influenced by the grade of obesity. The divergence in gut microbiota observed between men and women might have a dominant role in the definition of gender differences in the prevalence of metabolic and intestinal inflammatory diseases.
肠道微生物群的变化与肥胖的发生发展有关。然而,由于在饮食、年龄和激素因素方面存在高度个体间异质性,以及性别影响在很大程度上尚未得到探索,人类研究产生了相互矛盾的结果。在这项研究中,我们旨在确定与肥胖相关的不同肠道微生物群特征,作为性别和体重指数(BMI)变化的函数。通过16S测序分析了39名男性和36名绝经后女性的细菌群落结构差异,这些人具有相似的饮食背景,年龄匹配,并根据BMI进行分层。我们观察到,当BMI>33时,男性中拟杆菌属的丰度低于女性(P<0.001,Q = 0.002)。事实上,随着BMI的增加,男性中该属的丰度降低(P<0.001,Q<0.001)。然而,在女性中,在不同BMI范围内其丰度保持不变。我们观察到,与女性相比,男性粪便样本中韦荣球菌属(84.6%对47.2%;卡方检验P = 0.001,Q = 0.019)和甲烷短杆菌属(84.6%对47.2%;卡方检验P = 0.002,Q = 0.026)的存在比例更高。我们还观察到,无论BMI如何,男性中嗜胆菌属的丰度均低于女性(P = 0.002,Q = 0.041)。此外,在校正年龄和性别后发现,66个属水平的细菌分类群与BMI和血浆脂质相关。微生物群解释了BMI变异的31.17%(P = 0.001)、甘油三酯变异的29.04%、高密度脂蛋白变异的33.70%、低密度脂蛋白变异的46.86%和总胆固醇变异的28.55%。我们的结果表明,男性和女性的肠道微生物群可能存在差异,并且这些差异可能受到肥胖程度的影响。男性和女性之间观察到的肠道微生物群差异可能在代谢和肠道炎症性疾病患病率的性别差异定义中起主导作用。
