Department of Biotechnology and Biomedicine, Technical University of Denmark, Kongens Lyngby, Denmark.
BGI-Shenzhen, Shenzhen, China.
Gastroenterology. 2021 Jun;160(7):2423-2434.e5. doi: 10.1053/j.gastro.2021.02.053. Epub 2021 Mar 1.
BACKGROUND & AIMS: IgA exerts its primary function at mucosal surfaces, where it binds microbial antigens to regulate bacterial growth and epithelial attachment. One third of individuals with IgA deficiency (IgAD) suffers from recurrent mucosal infections, possibly related to an altered microbiota. We aimed to delineate the impact of IgAD and the IgA-autoantibody status on the composition and functional capacity of the gut microbiota.
We performed a paired, lifestyle-balanced analysis of the effect of IgA on the gut microbiota composition and functionality based on fecal samples from individuals with IgAD and IgA-sufficient household members (n = 100), involving quantitative shotgun metagenomics, species-centric functional annotation of gut bacteria, and strain-level analyses. We supplemented the data set with 32 individuals with IgAD and examined the influence of IgA-autoantibody status on the composition and functionality of the gut microbiota.
The gut microbiota of individuals with IgAD exhibited decreased richness and diversity and was enriched for bacterial species encoding pathogen-related functions including multidrug and antimicrobial peptide resistance, virulence factors, and type III and VI secretion systems. These functional changes were largely attributed to Escherichia coli but were independent of E coli strain variations and most prominent in individuals with IgAD with IgA-specific autoreactive antibodies.
The microbiota of individuals with IgAD is enriched for species holding increased proinflammatory potential, thereby potentially decreasing the resistance to gut barrier-perturbing events. This phenotype is especially pronounced in individuals with IgAD with IgA-specific autoreactive antibodies, thus warranting a screening for IgA-specific autoreactive antibodies in IgAD to identify patients with IgAD with increased risk for gastrointestinal implications.
IgA 在黏膜表面发挥主要功能,与微生物抗原结合以调节细菌生长和上皮附着。三分之一的 IgA 缺乏症(IgAD)患者会反复发生黏膜感染,这可能与微生物群改变有关。我们旨在描述 IgAD 以及 IgA 自身抗体状态对肠道微生物群组成和功能的影响。
我们基于 IgAD 患者和 IgA 充足的家庭成员(n=100)的粪便样本,进行了一项配对、生活方式平衡的 IgA 对肠道微生物群组成和功能影响的研究,涉及定量 shotgun 宏基因组学、肠道细菌的基于物种的功能注释以及菌株水平分析。我们用 32 名 IgAD 患者的数据进行了补充,并研究了 IgA 自身抗体状态对肠道微生物群组成和功能的影响。
IgAD 患者的肠道微生物群丰富度和多样性降低,且富含编码与病原体相关功能的细菌物种,包括多药和抗菌肽耐药性、毒力因子以及 III 型和 VI 型分泌系统。这些功能变化主要归因于大肠杆菌,但与大肠杆菌菌株变异无关,在 IgAD 中具有 IgA 特异性自身反应性抗体的个体中最为明显。
IgAD 患者的微生物群中富含具有增加促炎潜力的物种,从而可能降低对肠道屏障破坏事件的抵抗力。这种表型在 IgAD 中具有 IgA 特异性自身反应性抗体的个体中尤为明显,因此需要对 IgAD 进行 IgA 特异性自身反应性抗体筛查,以识别具有增加胃肠道影响风险的 IgAD 患者。
