Diverse NKT cells regulate early inflammation and neurological outcomes after cardiac arrest and resuscitation

医学 趋化因子 免疫系统 炎症 自然杀伤性T细胞 CD1D公司 免疫学 神经保护 小胶质细胞 先天免疫系统 复苏 T细胞 内科学 麻醉
作者
Tomoyoshi Tamura,Changde Cheng,Ana B. Villaseñor-Altamirano,Kohei Yamada,Kohei Ikeda,Kei Hayashida,Jaivardhan A. Menon,Xi Chen,Hattie Chung,Jack Varon,Jiani Chen,Jiyoung Choi,Aidan M. Cullen,Jingyu Guo,Xi Lin,Benjamin A. Olenchock,Mayra Pinilla-Vera,Reshmi Manandhar,Muhammad Dawood Amir Sheikh,Peter C. Hou,Patrick R. Lawler,William M. Oldham,Raghu R. Seethala,Rebecca M. Baron,Erin A. Bohula,David A. Morrow,Richard S. Blumberg,Fei Chen,Louis T. Merriam,Alexandra Weissman,Michael B. Brenner,Xiang Chen,Fumito Ichinose,Edy Y. Kim,Hyun Soon Sohn,Tyler J. Rolland,Brent R. Weil
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science (AAAS)]
卷期号:16 (776)
标识
DOI:10.1126/scitranslmed.adq5796
摘要

Neurological injury drives most deaths and morbidity among patients hospitalized for out-of-hospital cardiac arrest (OHCA). Despite its clinical importance, there are no effective pharmacological therapies targeting post–cardiac arrest (CA) neurological injury. Here, we analyzed circulating immune cells from a large cohort of patients with OHCA, finding that lymphopenia independently associated with poor neurological outcomes. Single-cell RNA sequencing of immune cells showed that T cells with features of both innate T cells and natural killer (NK) cells were increased in patients with favorable neurological outcomes. We more specifically identified an early increase in circulating diverse NKT (dNKT) cells in a separate cohort of patients with OHCA who had good neurological outcomes. These cells harbored a diverse T cell receptor repertoire but were consistently specific for sulfatide antigen. In mice, we found that sulfatide-specific dNKT cells trafficked to the brain after CA and resuscitation. In the brains of mice lacking NKT cells ( Cd1d −/− ), we observed increased inflammatory chemokine and cytokine expression and accumulation of macrophages when compared with wild-type mice. Cd1d −/− mice also had increased neuronal injury, neurological dysfunction, and worse mortality after CA. To therapeutically enhance dNKT cell activity, we treated mice with sulfatide lipid after CA, showing that it improved neurological function. Together, these data show that sulfatide-specific dNKT cells are associated with good neurological outcomes after clinical OHCA and are neuroprotective in mice after CA. Strategies to enhance the number or function of dNKT cells may thus represent a treatment approach for CA.
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