Transplantation Research Center, Renal Division, Brigham and Women's Hospital and Children's Hospital.
Program in Cellular and Molecular Medicine, Boston Children's Hospital.
JCI Insight. 2017 Nov 2;2(21):91599. doi: 10.1172/jci.insight.91599.
Tregs hold great promise as a cellular therapy for multiple immunologically mediated diseases, given their ability to control immune responses. The success of such strategies depends on the expansion of healthy, suppressive Tregs ex vivo and in vivo following the transfer. In clinical studies, levels of transferred Tregs decline sharply in the blood within a few days of the transfer. Tregs have a high rate of apoptosis. Here, we describe a new mechanism of Treg self-inflicted damage. We show that granzymes A and -B (GrA and GrB), which are highly upregulated in human Tregs upon stimulation, leak out of cytotoxic granules to induce cleavage of cytoplasmic and nuclear substrates, precipitating apoptosis in target cells. GrA and GrB substrates were protected from cleavage by inhibiting granzyme activity in vitro. Additionally, we show - by using cytometry by time of flight (CYTOF) - an increase in GrB-expressing Tregs in the peripheral blood and renal allografts of transplant recipients undergoing rejection. These GrB-expressing Tregs showed an activated phenotype but were significantly more apoptotic than non-GrB expressing Tregs. This potentially novel finding improves our understanding of Treg survival and suggests that manipulating Gr expression or activity might be useful for designing more effective Treg therapies.
调节性 T 细胞 (Tregs) 因其能够控制免疫反应,有望成为治疗多种免疫介导疾病的细胞疗法。这些策略的成功依赖于在转移后体外和体内扩增健康、具有抑制功能的 Tregs。在临床研究中,转移的 Tregs 在转移后几天内血液中的水平急剧下降。Tregs 具有很高的凋亡率。在这里,我们描述了一种 Treg 自我损伤的新机制。我们发现,在受到刺激后,人 Tregs 中高度上调的颗粒酶 A 和 -B(GrA 和 GrB)会从细胞毒性颗粒中漏出,诱导细胞质和核底物的切割,导致靶细胞凋亡。体外抑制颗粒酶活性可保护 GrA 和 GrB 底物不被切割。此外,我们通过时间飞行流式细胞术(CYTOF)显示,在发生排斥反应的移植受者的外周血和移植肾中,GrB 表达的 Tregs 增加。这些表达 GrB 的 Tregs 表现出激活的表型,但比不表达 GrB 的 Tregs 凋亡明显更多。这一潜在的新发现提高了我们对 Treg 存活的理解,并表明操纵 Gr 表达或活性可能有助于设计更有效的 Treg 治疗方法。
