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T 细胞抑制性 PD-L1 细胞外囊泡的积累与 GvHD 相关,并可能影响 GvL 疗效。

Accumulation of T-cell-suppressive PD-L1 extracellular vesicles is associated with GvHD and might impact GvL efficacy.

机构信息

Department of Hematology and Clinical Oncology, Friedrich-Alexander-Universitat Erlangen-Nurnberg, Erlangen, Germany.

Department of Hematology and Oncology, Otto von Guericke Universitat, Magdeburg, Germany.

出版信息

J Immunother Cancer. 2023 Mar;11(3). doi: 10.1136/jitc-2022-006362.

DOI:10.1136/jitc-2022-006362
PMID:36898735
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10008446/
Abstract

Allogeneic hematopoietic stem cell transplantation (allo-HSCT) represents the only curative treatment option for a number of hemato-oncological disorders. In fact, allo-HSCT is considered as one of the most successful immunotherapies as its clinical efficacy is based on the donor T-cells' capacity to control residual disease. This process is known as the graft-versus-leukemia (GvL) reaction. However, alloreactive T-cells can also recognize the host as foreign and trigger a systemic potentially life-threatening inflammatory disorder termed graft-versus-host disease (GvHD). A better understanding of the underlying mechanisms that lead to GvHD or disease relapse could help us to improve efficacy and safety of allo-HSCT. In recent years, extracellular vesicles (EVs) have emerged as critical components of intercellular crosstalk. Cancer-associated EVs that express the immune checkpoint molecule programmed death-ligand 1 (PD-L1) can suppress T-cell responses and thus contribute to immune escape. At the same time, it has been observed that inflammation triggers PD-L1 expression as part of a negative feedback network.Here, we investigated whether circulating EVs following allo-HSCT express PD-L1 and tested their efficacy to suppress the ability of (autologous) T-cells to effectively target AML blasts. Finally, we assessed the link between PD-L1 levels on EVs to (T-)cell reconstitution, GvHD, and disease relapse.We were able to detect PD-L1 EVs that reached a peak PD-L1 expression at 6 weeks post allo-HSCT. Development of acute GvHD was linked to the emergence of PD-L1 EVs following allo-HSCT. Moreover, PD-L1 levels correlated positively with GvHD grade and declined (only) on successful therapeutic intervention. T-cell-inhibitory capacity was higher in PD-L1 EVs as compared with their PD-L1 counterparts and could be antagonized using PD-L1/PD-1 blocking antibodies. Abundance of T-cell-suppressive PD-L1 EVs appears to also impact GvL efficacy as patients were at higher risk for relapse. Finally, patients of PD-L1 cohort displayed a reduced overall survival.Taken together, we show that PD-L1-expressing EVs are present following allo-HSCT. PD-L1 levels on EVs correlate with their ability to suppress T-cells and the occurrence of GvHD. The latter observation may indicate a negative feedback mechanism to control inflammatory (GvHD) activity. This intrinsic immunosuppression could subsequently promote disease relapse.

摘要

同种异体造血干细胞移植(allo-HSCT)是许多血液肿瘤疾病的唯一治愈性治疗选择。事实上,allo-HSCT 被认为是最成功的免疫疗法之一,因为其临床疗效基于供体 T 细胞控制残留疾病的能力。这个过程被称为移植物抗白血病(GvL)反应。然而,同种反应性 T 细胞也可能将宿主视为异己,并引发一种称为移植物抗宿主病(GvHD)的全身性潜在致命炎症性疾病。更好地了解导致 GvHD 或疾病复发的潜在机制,可以帮助我们提高 allo-HSCT 的疗效和安全性。近年来,细胞外囊泡(EVs)已成为细胞间通讯的关键组成部分。表达免疫检查点分子程序性死亡配体 1(PD-L1)的癌相关 EVs 可以抑制 T 细胞反应,从而有助于免疫逃逸。同时,人们观察到炎症会触发 PD-L1 表达,作为负反馈网络的一部分。在这里,我们研究了 allo-HSCT 后循环 EVs 是否表达 PD-L1,并测试了它们抑制(自体)T 细胞有效靶向 AML 白血病细胞的能力。最后,我们评估了 EVs 上的 PD-L1 水平与(T-)细胞重建、GvHD 和疾病复发之间的联系。我们能够检测到 PD-L1 EVs,其 PD-L1 表达在 allo-HSCT 后 6 周达到峰值。急性 GvHD 的发展与 allo-HSCT 后 PD-L1 EVs 的出现有关。此外,PD-L1 水平与 GvHD 分级呈正相关,并在成功的治疗干预后下降(仅)。与 PD-L1 EVs 相比,PD-L1 水平更高的 T 细胞抑制能力,并可使用 PD-L1/PD-1 阻断抗体拮抗。T 细胞抑制性 PD-L1 EVs 的丰度似乎也会影响 GvL 疗效,因为患者复发的风险更高。最后,PD-L1 队列的患者总生存时间降低。综上所述,我们表明 PD-L1 表达的 EVs 在 allo-HSCT 后存在。EVs 上的 PD-L1 水平与其抑制 T 细胞的能力和 GvHD 的发生相关。后者的观察结果可能表明是一种负反馈机制来控制炎症(GvHD)活性。这种内在的免疫抑制随后可能会促进疾病复发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/33a2a8808051/jitc-2022-006362f04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/c5f9c6c7f1c7/jitc-2022-006362f01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/4514bf44f803/jitc-2022-006362f02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/3421b92fe311/jitc-2022-006362f03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/33a2a8808051/jitc-2022-006362f04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/c5f9c6c7f1c7/jitc-2022-006362f01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/4514bf44f803/jitc-2022-006362f02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/3421b92fe311/jitc-2022-006362f03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f917/10008446/33a2a8808051/jitc-2022-006362f04.jpg

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