Division of Infectious Diseases, Department of Medicine, University of Colorado Anschutz Medical Campusgrid.430503.1, Aurora, Colorado, USA.
Department of Immunology and Microbiology, University of Colorado Anschutz Medical Campusgrid.430503.1, Aurora, Colorado, USA.
J Virol. 2022 Sep 14;96(17):e0097622. doi: 10.1128/jvi.00976-22. Epub 2022 Aug 8.
Humoral immune perturbations contribute to pathogenic outcomes in persons with HIV-1 infection (PWH). Gut barrier dysfunction in PWH is associated with microbial translocation and alterations in microbial communities (dysbiosis), and IgA, the most abundant immunoglobulin (Ig) isotype in the gut, is involved in gut homeostasis by interacting with the microbiome. We determined the impact of HIV-1 infection on the antibody repertoire in the gastrointestinal tract by comparing Ig gene utilization and somatic hypermutation (SHM) in colon biopsies from PWH ( = 19) versus age and sex-matched controls ( = 13). We correlated these Ig parameters with clinical, immunological, microbiome and virological data. Gene signatures of enhanced B cell activation were accompanied by skewed frequencies of multiple Ig Variable genes in PWH. PWH showed decreased frequencies of SHM in IgA and possibly IgG, with a substantial loss of highly mutated IgA sequences. The decline in IgA SHM in PWH correlated with gut CD4 T cell loss and inversely correlated with mucosal inflammation and microbial translocation. Diminished gut IgA SHM in PWH was driven by transversion mutations at A or T deoxynucleotides, suggesting a defect not at the AID/APOBEC3 deamination step but at later stages of IgA SHM. These results expand our understanding of humoral immune perturbations in PWH that could have important implications in understanding mucosal immune defects in individuals with chronic HIV-1 infection. The gut is a major site of early HIV-1 replication and pathogenesis. Extensive CD4 T cell depletion in this compartment results in a compromised epithelial barrier that facilitates the translocation of microbes into the underlying lamina propria and systemic circulation, resulting in chronic immune activation. To date, the consequences of microbial translocation on the mucosal humoral immune response (or vice versa) remains poorly integrated into the panoply of mucosal immune defects in PWH. We utilized next-generation sequencing approaches to profile the Ab repertoire and ascertain frequencies of somatic hypermutation in colon biopsies from antiretroviral therapy-naive PWH versus controls. Our findings identify perturbations in the Ab repertoire of PWH that could contribute to development or maintenance of dysbiosis. Moreover, IgA mutations significantly decreased in PWH and this was associated with adverse clinical outcomes. These data may provide insight into the mechanisms underlying impaired Ab-dependent gut homeostasis during chronic HIV-1 infection.
体液免疫失调导致人类免疫缺陷病毒 1 型感染(HIV-1)患者(PWH)出现致病后果。PWH 的肠道屏障功能障碍与微生物易位和微生物群落改变(失调)有关,而 IgA 是肠道中含量最丰富的免疫球蛋白(Ig),通过与微生物组相互作用参与肠道内稳态。我们通过比较 HIV-1 感染的 PWH(n=19)与年龄和性别匹配的对照(n=13)的结肠活检中 Ig 基因利用和体细胞超突变(SHM),来确定 HIV-1 感染对胃肠道中抗体库的影响。我们将这些 Ig 参数与临床、免疫、微生物组和病毒学数据相关联。PWH 中 B 细胞激活的基因特征伴随着 Ig 可变基因的多个基因频率偏斜。PWH 中 IgA 和可能的 IgG 的 SHM 频率降低,高度突变的 IgA 序列大量丢失。PWH 中 IgA SHM 的下降与肠道 CD4 T 细胞丢失相关,与黏膜炎症和微生物易位呈负相关。PWH 中肠道 IgA SHM 的减少是由 A 或 T 脱氧核苷酸的颠换突变驱动的,这表明不是在 AID/APOBEC3 脱氨酶步骤而是在 IgA SHM 的后期阶段存在缺陷。这些结果扩展了我们对 PWH 中体液免疫失调的理解,这可能对理解慢性 HIV-1 感染个体中的黏膜免疫缺陷具有重要意义。肠道是 HIV-1 早期复制和发病的主要部位。该部位的大量 CD4 T 细胞耗竭导致上皮屏障受损,促进微生物易位到下基质和全身循环,导致慢性免疫激活。迄今为止,微生物易位对黏膜体液免疫反应的后果(或反之亦然)仍然没有很好地整合到 PWH 中黏膜免疫缺陷的综合表现中。我们利用下一代测序方法对来自未接受抗逆转录病毒治疗的 PWH 与对照的结肠活检中的 Ab 库进行了分析,并确定了体细胞超突变的频率。我们的发现确定了 PWH 的 Ab 库中的失调,这可能有助于失调的发展或维持。此外,PWH 中的 IgA 突变显著减少,这与不良临床结局相关。这些数据可能为理解慢性 HIV-1 感染期间受损的 Ab 依赖性肠道内稳态的机制提供了线索。
