IgG and Fc receptor genetic variation associates with functional antibody responses in a DNA and protein candidate HIV vaccine trial.

Journal of acquired immune deficiency syndromes (1999) Pub Date : 2025-07-24 DOI:10.1097/QAI.0000000000003734

Haleigh Conley, Song Young Oh, Nigel Garrett, James Kublin, Cynthia L Monaco, Spencer Watts, Shalini Jha, Guido Ferrari, Georgia D Tomaras, Daniel E Geraghty, Cliburn Chan, Justin Pollara

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Abstract

Background: The HVTN108 trial evaluated the safety and immunogenicity of a DNA prime, adjuvanted protein boost HIV vaccine in the US and South Africa. The underlying factors influencing individual variation in vaccine responsiveness are unknown. Here, we defined the IgG Fc and Fc receptor (FcR) genotypes in the HVTN108 cohort to test our hypothesis that IgG and FcR genetic variation can affect vaccine-elicited functional antibody responses.

Methods: IgG Fc and FcR alleles were determined by targeted PCR amplification and next-generation sequencing. Vaccine-elicited functional antibody responses, including binding antibody multiplex assay (BAMA), antibody-dependent cellular cytotoxicity (ADCC), and antibody-dependent cellular phagocytosis (ADCP) activity were measured utilizing standardized and qualified methods. Relationships between alleles and antibody responses were identified by linear regression controlling for treatment group and region.

Results: The distribution of many polymorphisms significantly differed between the US and South Africa. Within the subset of the cohort tested for functional antibody responses (IgG, n=41; FcR, n=55), IgG genotypes such as IGHG1*12 (p=0.012), IGHG3*11 (p=0.033), IGHG2*02 (p=0.038), IGHG4*07 (p=0.076), and others were associated with ADCC antibody responses when corrected for vaccine group and regional effects. In the same way, we identified that the FCER1A rs2427827 mutation had a significant association with lower peak ADCC activity and the FCER2 rs2228137 mutation was associated with lower antibody binding to Con6 gp120 protein.

Conclusion: Genetic variation in both antibodies and FcRs associated with levels of HIV- vaccine-elicited functional antibodies. Significant regional differences in distribution of this variation support the need for vaccine testing in diverse populations.

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在一项DNA和蛋白质候选HIV疫苗试验中，IgG和Fc受体遗传变异与功能性抗体反应相关。

背景：HVTN108试验在美国和南非评估了DNA引物佐剂蛋白增强HIV疫苗的安全性和免疫原性。影响疫苗反应性个体差异的潜在因素尚不清楚。在这里，我们在HVTN108队列中定义了IgG Fc和Fc受体（FcR）基因型，以验证我们的假设，即IgG和FcR基因变异可以影响疫苗引发的功能性抗体反应。方法：采用靶向PCR扩增和新一代测序法检测IgG Fc和FcR等位基因。利用标准化和合格的方法测量疫苗引发的功能性抗体反应，包括结合抗体多重测定（BAMA）、抗体依赖性细胞毒性（ADCC）和抗体依赖性细胞吞噬（ADCP）活性。对治疗组和区域进行线性回归控制，确定等位基因与抗体反应之间的关系。结果：许多多态性在美国和南非的分布有显著差异。在测试功能性抗体反应的队列子集中(IgG, n=41；FcR （n=55）、IgG基因型IGHG1*12 （p=0.012）、IGHG3*11 （p=0.033）、IGHG2*02 （p=0.038）、IGHG4*07 （p=0.076）等在校正疫苗组和区域效应后与ADCC抗体应答相关。以同样的方式，我们发现FCER1A rs2427827突变与ADCC活性峰值较低显著相关，FCER2 rs2228137突变与Con6 gp120蛋白抗体结合较低相关。结论：抗体和fcr的遗传变异与HIV疫苗诱导的功能抗体水平相关。这种变异分布的显著区域差异支持了在不同人群中进行疫苗试验的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of acquired immune deficiency syndromes (1999)

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