Cell softness renders cytotoxic T lymphocytes and T leukemic cells resistant to perforin-mediated killing.
Yabo ZhouDianheng WangLi ZhouNannan ZhouZhenfeng WangJie ChenRuiyang PangHaixia FuQiusha HuangFang DongHui ChengHuafeng ZhangKe TangJingwei MaJiadi LvTao ChengRoland FiskesundXiao-Hui ZhangBo HuangPublished in: Nature communications (2024)
Mechanical force contributes to perforin pore formation at immune synapses, thus facilitating the cytotoxic T lymphocytes (CTL)-mediated killing of tumor cells in a unidirectional fashion. How such mechanical cues affect CTL evasion of perforin-mediated autolysis remains unclear. Here we show that activated CTLs use their softness to evade perforin-mediated autolysis, which, however, is shared by T leukemic cells to evade CTL killing. Downregulation of filamin A is identified to induce softness via ZAP70-mediated YAP Y357 phosphorylation and activation. Despite the requirements of YAP in both cell types for softness induction, CTLs are more resistant to YAP inhibitors than malignant T cells, potentially due to the higher expression of the drug-resistant transporter, MDR1, in CTLs. As a result, moderate inhibition of YAP stiffens malignant T cells but spares CTLs, thus allowing CTLs to cytolyze malignant cells without autolysis. Our findings thus hint a mechanical force-based immunotherapeutic strategy against T cell leukemia.