Lisa M Matz, Nisarg S Shah, Laura Porterfield, Olivia M Stuyck, Michael D Jochum, Rakez Kayed, Giulio Taglialatela, Randall J Urban, Shelly A Buffington
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Divergent Gastrointestinal Symptom Rating Scale (GSRS) responses, despite no differences in expressed dietary preferences, provided the first evidence for altered gut microbial ecology among T2D subjects (sT2D) versus population-matched healthy controls (HC). Metataxonomic 16S rRNA sequencing of participant stool revealed a decrease in alpha diversity of sT2D versus HC gut communities and identified BMI as a driver of gut community structure. Linear discriminant analysis effect size (LEfSe) identified a significant decrease in the relative abundance of the short-chain fatty acid-producing taxa Lachnospiraceae, Faecalibacterium, and Alistipes and an increase in pathobionts Escherichia-Shigella, Enterobacter, and Clostridia innocuum among sT2D gut microbiota, as well as differentially abundant gene and metabolic pathways. These results suggest characterization of the gut microbiome of individuals with T2D could identify key actors among “disease state” microbiota which may increase risk for or accelerate the onset of neurodegeneration. 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引用次数: 0
摘要
2型糖尿病(T2D)是包括阿尔茨海默病(AD)在内的神经变性和痴呆症的常见先兆,但其潜在机制仍未得到解决。尽管易感 APOE-e4 变异的发生率很低,而且居住在墨西哥的亲属中也没有这种表型,但居住在南得克萨斯州的墨西哥后裔却有更高的合并 T2D 和早发性 AD 的患病率--这表明环境因素在 T2D 和 AD 易感性中的作用。在这里,我们通过一项小型临床试验表明,人类肠道微生物组的菌群失调可能会导致神经炎症和该人群的 AD 风险。尽管在表达的饮食偏好方面没有差异,但胃肠道症状评分量表(GSRS)反应的差异首次证明了T2D受试者(sT2D)与人群匹配的健康对照组(HC)之间肠道微生物生态的改变。对受试者粪便进行的元分类 16S rRNA 测序显示,与健康对照组相比,T2D 受试者肠道群落的阿尔法多样性有所降低,并确定体重指数是肠道群落结构的驱动因素。线性判别分析效应大小(LEfSe)发现,在 sT2D 肠道微生物群中,产生短链脂肪酸的类群 Lachnospiraceae、Faecalibacterium 和 Alistipes 的相对丰度显著降低,病原菌 Escherichia-Shigella、Enterobacter 和 Clostridia innocuum 的相对丰度增加,基因和代谢途径的丰度也有所不同。这些结果表明,对患有 T2D 的人的肠道微生物群进行特征描述,可以确定 "疾病状态 "微生物群中可能增加神经变性风险或加速神经变性发生的关键角色。此外,它们还确定了预防和治疗 AD 神经炎症的候选微生物靶向方法。
Microbial determinants of dementia risk in subjects of Mexican descent with type 2 diabetes living in South Texas
Type 2 diabetes (T2D) is a common forerunner of neurodegeneration and dementia, including Alzheimer’s Disease (AD), yet the underlying mechanisms remain unresolved. Individuals of Mexican descent living in South Texas have increased prevalence of comorbid T2D and early onset AD, despite low incidence of the predisposing APOE-e4 variant and an absence of the phenotype among relatives residing in Mexico – suggesting a role for environmental factors in coincident T2D and AD susceptibility. Here, in a small clinical trial, we show dysbiosis of the human gut microbiome could contribute to neuroinflammation and risk for AD in this population. Divergent Gastrointestinal Symptom Rating Scale (GSRS) responses, despite no differences in expressed dietary preferences, provided the first evidence for altered gut microbial ecology among T2D subjects (sT2D) versus population-matched healthy controls (HC). Metataxonomic 16S rRNA sequencing of participant stool revealed a decrease in alpha diversity of sT2D versus HC gut communities and identified BMI as a driver of gut community structure. Linear discriminant analysis effect size (LEfSe) identified a significant decrease in the relative abundance of the short-chain fatty acid-producing taxa Lachnospiraceae, Faecalibacterium, and Alistipes and an increase in pathobionts Escherichia-Shigella, Enterobacter, and Clostridia innocuum among sT2D gut microbiota, as well as differentially abundant gene and metabolic pathways. These results suggest characterization of the gut microbiome of individuals with T2D could identify key actors among “disease state” microbiota which may increase risk for or accelerate the onset of neurodegeneration. Furthermore, they identify candidate microbiome-targeted approaches for prevention and treatment of neuroinflammation in AD.