Nathaniel Oberholtzer, Paramita Chakraborty, Mohamed Faisal Kassir, James Dressman, Satyajit Das, Stephanie Mills, Susana Comte-Walters, Monika Gooz, Seungho Choi, Rasesh Y. Parikh, Zacharia Hedley, Silvia Vaena, Reid DeMass, Gina Scurti, Martin Romeo, Vamsi K. Gangaraju, Stefano Berto, Elizabeth Hill, Lauren E. Ball, Anand S. Mehta, Eduardo N. Maldonado, Michael I. Nishimura, Besim Ogretmen, Shikhar Mehrotra
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引用次数: 0
摘要
肿瘤微环境(TME)与高尔基体功能不足导致的蛋白质修饰和转运不足有关,从而导致高尔基体应激,而高尔基体应激在调控 T 细胞功能中的作用在很大程度上是未知的。在这里,我们发现,在硫化氢(H 2 S)供体 GYY4137 处理或过表达胱硫醚 β 合成酶(CBS)后,TME 应激下高尔基体结构的破坏(由 GM130 的表达减少确定)被逆转、这也促进了干性、抗氧化能力和蛋白质翻译的增加,部分是由内质网-高尔基体穿梭的过氧化还原酶-4介导的。在黑色素瘤和淋巴瘤的活体模型中,用外源 H 2 S 或过表达 CBS 的抗肿瘤 T 细胞在进行收养性转移时显示出卓越的肿瘤控制能力。此外,高尔基体含量高的 T 细胞表现出独特的代谢和糖化特征,具有更强的抗肿瘤能力。这些数据表明,减轻高尔基体网络压力或使用高尔基体高肿瘤反应性 T 细胞的策略可以提高肿瘤控制能力。
H2S-Prdx4 axis mitigates Golgi stress to bolster tumor-reactive T cell immunotherapeutic response
The role of tumor microenvironment (TME)–associated inadequate protein modification and trafficking due to insufficiency in Golgi function, leading to Golgi stress, in the regulation of T cell function is largely unknown. Here, we show that disruption of Golgi architecture under TME stress, identified by the decreased expression of GM130, was reverted upon treatment with hydrogen sulfide (H2S) donor GYY4137 or overexpressing cystathionine β-synthase (CBS), an enzyme involved in the biosynthesis of endogenous H2S, which also promoted stemness, antioxidant capacity, and increased protein translation, mediated in part by endoplasmic reticulum–Golgi shuttling of Peroxiredoxin-4. In in vivo models of melanoma and lymphoma, antitumor T cells conditioned ex vivo with exogenous H2S or overexpressing CBS demonstrated superior tumor control upon adoptive transfer. Further, T cells with high Golgi content exhibited unique metabolic and glycation signatures with enhanced antitumor capacity. These data suggest that strategies to mitigate Golgi network stress or using Golgihi tumor-reactive T cells can improve tumor control upon adoptive transfer.
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Science Advances, an open-access journal by AAAS, publishes impactful research in diverse scientific areas. It aims for fair, fast, and expert peer review, providing freely accessible research to readers. Led by distinguished scientists, the journal supports AAAS's mission by extending Science magazine's capacity to identify and promote significant advances. Evolving digital publishing technologies play a crucial role in advancing AAAS's global mission for science communication and benefitting humankind.
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