Iliana K. Kerzeli , Aikaterini Nasi , Erika Fletcher , Aikaterini Chourlia , Anders Kallin , Niklas Finnberg , Karolina Ersmark , Maria Lampinen , Mark Albertella , Fredrik Öberg , Sara M. Mangsbo
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引用次数: 0
摘要
本研究旨在评估一种选择性小分子 MALT1 抑制剂在实体瘤治疗中作为靶向调节性 T 细胞(Tregs)的免疫疗法的潜在用途。在体外,MALT1抑制剂抑制了MALT1底物HOIL1的蛋白水解,并阻断了Jurkat细胞中IL-2的分泌。它能选择性地抑制源自 PBMC 的 Treg 的增殖,而对传统的 CD4+ T 细胞没有影响。然而,在 MB49 癌症模型中,MALT1 抑制剂单药治疗或与抗 CTLA4 联合治疗均未取得明显的抗肿瘤效果。尽管肿瘤动物淋巴结中的Treg频率下降,但并未观察到瘤内Treg耗竭。我们还发现,在采纳性 T 细胞转移模型中,抑制 MALT1 会导致抗原特异性 CD8+ T 细胞减少。因此,需要选择性地靶向Tregs,以提高MALT1抑制的免疫治疗效果。此外,还应该仔细设计并进一步评估各种给药方案和联合治疗策略。
MALT1 inhibition suppresses antigen-specific T cell responses
The aim of this study was to assess the potential use of a selective small molecule MALT1 inhibitor in solid tumor treatment as an immunotherapy targeting regulatory T-cells (Tregs). In vitro, MALT1 inhibition suppressed the proteolytic cleavage of the MALT1-substrate HOIL1 and blocked IL-2 secretion in Jurkat cells. It selectively suppressed the proliferation of PBMC-derived Tregs, with no effect on conventional CD4+T-cells. In vivo, however, no evident anti-tumor effect was achieved by MALT1 inhibition monotherapy or in combination with anti-CTLA4 in the MB49 cancer model. Despite decreased Treg-frequencies in lymph nodes of tumor-bearing animals, intratumoral Treg depletion was not observed. We also showed that MALT1-inhibition caused a reduction of antigen-specific CD8+T-cells in an adoptive T-cell transfer model. Thus, selective targeting of Tregs would be required to improve the immunotherapeutic effect of MALT1-inhibition. Also, various dosing schedules and combination therapy strategies should be carefully designed and evaluated further.
期刊介绍:
Cellular Immunology publishes original investigations concerned with the immunological activities of cells in experimental or clinical situations. The scope of the journal encompasses the broad area of in vitro and in vivo studies of cellular immune responses. Purely clinical descriptive studies are not considered.
Research Areas include:
• Antigen receptor sites
• Autoimmunity
• Delayed-type hypersensitivity or cellular immunity
• Immunologic deficiency states and their reconstitution
• Immunologic surveillance and tumor immunity
• Immunomodulation
• Immunotherapy
• Lymphokines and cytokines
• Nonantibody immunity
• Parasite immunology
• Resistance to intracellular microbial and viral infection
• Thymus and lymphocyte immunobiology
• Transplantation immunology
• Tumor immunity.
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