Xu Zhi Ming, Zwyer Michaela, Hiza Hellen, Schmidiger Sarah, Sasamalo Mohamed, Reinhard Miriam, Doetsch Anna, Borrell Sonia, Naret Olivier, Rüeger Sina, Lawless Dylan, Tang Simon, Isihaka Faima, Temba Hosiana, Maroa Thomas, Naftari Rastard, Beisel Christian, Hella Jerry, Reither Klaus, Brites Daniela, Portevin Damien, Gagneux Sebastien, Fellay Jacques
School of Life Sciences, École Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.
Swiss Institute of Bioinformatics, Lausanne, Switzerland.
BMC Med Genomics. 2025 Jun 2;18(1):99. doi: 10.1186/s12920-025-02164-x.
The risk and prognosis of tuberculosis (TB) are influenced by a complex interplay between human and bacterial genetic factors. While previous genomic studies have largely examined human and bacterial genomes separately, we adopted an integrated approach to uncover host-pathogen interactions. We leveraged paired human and Mycobacterium tuberculosis (M.tb) genomic data from 1000 adult TB patients from Tanzania and used a "genome-to-genome" approach to search for associations between human and M.tb genetic variants and to identify interacting genetic loci. Our analyses revealed two significant host-pathogen genetic associations. The first significant association (p = 4.7e-11) links a human intronic variant in PRDM15 (rs12151990), a gene involved in apoptosis regulation, with an M.tb variant in Rv2348c (I101M), which encodes a T cell-stimulating antigen. The second significant association (p = 6.3e-11) connects a human intergenic variant near TIMM21 and FBXO15 (rs75769176) - also associated with TB severity (p = 0.04) - with an M.tb variant in FixA (T67M). While FBXO15 is involved in the regulation of antigen processing and TIMM21 affects mitochondrial function, FixA's role remains undefined due to limited functional characterization. Additionally, we observed that a group of M.tb T cell epitope variants were significantly associated with HLA-DRB1 variation, suggesting that, despite their rarity, certain epitopes may still be subjected to immune selective pressure. Together, these findings identify previously unknown sites of genomic conflicts between humans and M.tb, advancing our understanding of how this pathogen evades selection pressure and persist in human populations.
结核病(TB)的风险和预后受到人类和细菌遗传因素之间复杂相互作用的影响。虽然先前的基因组研究大多分别研究人类和细菌基因组,但我们采用了一种综合方法来揭示宿主-病原体相互作用。我们利用了来自坦桑尼亚1000名成年结核病患者的配对人类和结核分枝杆菌(M.tb)基因组数据,并使用“基因组对基因组”方法来寻找人类和M.tb基因变异之间的关联,并确定相互作用的基因位点。我们的分析揭示了两个显著的宿主-病原体遗传关联。第一个显著关联(p = 4.7e-11)将PRDM15(rs12151990)中的一个人类内含子变异与Rv2348c(I101M)中的一个M.tb变异联系起来,PRDM15是一个参与细胞凋亡调节的基因,Rv2348c编码一种T细胞刺激抗原。第二个显著关联(p = 6.3e-11)将TIMM21和FBXO15附近的一个人类基因间变异(rs75769176)——也与结核病严重程度相关(p = 0.04)——与FixA中的一个M.tb变异(T67M)联系起来。虽然FBXO15参与抗原加工的调节,TIMM21影响线粒体功能,但由于功能表征有限,FixA的作用仍不明确。此外,我们观察到一组M.tb T细胞表位变异与HLA-DRB1变异显著相关,这表明,尽管它们很罕见,但某些表位可能仍然受到免疫选择压力。总之,这些发现确定了人类和M.tb之间以前未知的基因组冲突位点,加深了我们对这种病原体如何逃避选择压力并在人类群体中持续存在的理解。
