HLA topography enforces shared and convergent immunodominant B cell and antibody alloresponses in transplant recipients.

bioRxiv : the preprint server for biology Pub Date : 2024-07-24 DOI:10.1101/2023.03.31.534734

John T Killian, R Glenn King, Aaron C K Lucander, James L Kizziah, Christopher F Fucile, Ruben Diaz-Avalos, Shihong Qiu, Aaron Silva-Sanchez, Betty J Mousseau, Kevin J Macon, Amanda R Callahan, Guang Yang, M Emon Hossain, Jobaida Akther, Daryl B Good, Susan Kelso, Julie A Houp, Frida Rosenblum, Paige M Porrett, Song C Ong, Vineeta Kumar, Erica Ollmann Saphire, John F Kearney, Troy D Randall, Alexander F Rosenberg, Todd J Green, Frances E Lund

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Abstract

Donor-specific antibody (DSA) responses against human leukocyte antigen (HLA) proteins mismatched between kidney transplant donors and recipients cause allograft loss. The rules governing the immunogenicity of non-self donor HLA are poorly understood. Using single-cell, molecular, structural, and proteomic techniques, we profiled the HLA-specific B cell response in the kidney and blood of a transplant recipient with antibody-mediated rejection (AMR). We observed an immunodominant B cell antibody response focused on topographically exposed, solvent-accessible mismatched HLA residues along the peptide-binding groove - a subregion comprising only 20% of the HLA molecule. We further demonstrated that, even within a diverse cohort of transplant recipients, the B cell alloresponse consistently converges on this same immunodominant subregion on the crown of the HLA molecule. Based on these findings, we propose that B cell immunodominance in transplant rejection relies on antigenic topography, and we suggest that this link could be exploited for organ matching and therapeutics.

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移植异体抗原表位的 B 细胞和抗体靶向得到自身和异体识别的支持。

肾移植供体和受体之间针对人类白细胞抗原（HLA）蛋白不匹配的供体特异性抗体（DSA）反应会导致同种异体移植物丢失。我们利用单细胞、分子、结构和蛋白质组学技术，分析了一名患有抗体介导的排斥反应（AMR）的移植受者肾脏和血液中的 HLA 特异性（异体反应）B 细胞反应。我们确定了 14 个不同的异源反应 B 细胞系，它们遍布排斥反应器官和血液，表达高亲和力的抗供体 HLA 特异性 B 细胞受体，其中许多受体与循环中的 DSA 有克隆联系。异体反应性 B 细胞反应主要集中在暴露的、可溶解的不匹配 HLA 残基上，同时也表现出与自身 HLA 残基的广泛接触。与自我识别的结构证据相一致的是，供体特异性 B 细胞可测量的自我反应也很常见，并且与抗供体亲和力成熟度呈正相关。因此，异体和自身反应特征似乎趋于一致，这表明在AMR过程中，非自身的识别和耐受性的破坏共同产生了致病性的供体特异性适应反应。

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