Tao Liu1, Fan Yang1, Jie Xie1, Jiajun Chen1, Wei Gao1, Xiangjun Bai1, Zhanfei Li2. 1. Department of Trauma Surgery, Tongji Hospital, Tongji Medical College of Huazhong University of Science and Technology, China. 2. Department of Trauma Surgery, Tongji Hospital, Tongji Medical College of Huazhong University of Science and Technology, China. Electronic address: lezhfei@163.com.
Abstract
BACKGROUND: Patients are susceptible to immunosuppression in late-stage of sepsis, in which myeloid-derived suppressor cells (MDSCs) is an important contributor. This study aims to investigate whether all-trans-retinoic acid (ATRA), which has been proved to inhibit MDSCs generation in cancer, will ameliorate sepsis-induced immuno-suppression through modulating MDSCs. METHODS: A clinically relevant "two-hit'' model of sepsis, the cecal ligation and puncture (CLP) model and secondary pneumonia model, were established in mice. The effects of ATRA on the mortality, the bacterial burden, the expansion and activity of CLP-induced MDSCs, as well as the function of CD4+ T cells were evaluated. RESULTS: In CLP model, ATRA was found to reduce frequency of MDSCs in spleen of mice and inhibit activity of MDSCs by regulating the generation and activity of arginase-1 and iNOS, and the secretion of immune-supressive cytokines. ATRA administration eventually reduced mortality of secondary infection by Legionella pneumophila in CLP-surviving mice, which might be associated with the restoration of CD4+ T cells proliferating and secreting activity. CONCLUSION: ATRA can restore CD4+ T cells dysfunction in sepsis by modulating the expansion and function of MDSCs and therefore provides a potential therapy that targets the immunosuppressive state of sepsis.
BACKGROUND:Patients are susceptible to immunosuppression in late-stage of sepsis, in which myeloid-derived suppressor cells (MDSCs) is an important contributor. This study aims to investigate whether all-trans-retinoic acid (ATRA), which has been proved to inhibit MDSCs generation in cancer, will ameliorate sepsis-induced immuno-suppression through modulating MDSCs. METHODS: A clinically relevant "two-hit'' model of sepsis, the cecal ligation and puncture (CLP) model and secondary pneumonia model, were established in mice. The effects of ATRA on the mortality, the bacterial burden, the expansion and activity of CLP-induced MDSCs, as well as the function of CD4+ T cells were evaluated. RESULTS: In CLP model, ATRA was found to reduce frequency of MDSCs in spleen of mice and inhibit activity of MDSCs by regulating the generation and activity of arginase-1 and iNOS, and the secretion of immune-supressive cytokines. ATRA administration eventually reduced mortality of secondary infection by Legionella pneumophila in CLP-surviving mice, which might be associated with the restoration of CD4+ T cells proliferating and secreting activity. CONCLUSION:ATRA can restore CD4+ T cells dysfunction in sepsis by modulating the expansion and function of MDSCs and therefore provides a potential therapy that targets the immunosuppressive state of sepsis.
Authors: Gabrielle M Haeusler; Alexandra L Garnham; Connie Sn Li-Wai-Suen; Julia E Clark; Franz E Babl; Zoe Allaway; Monica A Slavin; Francoise Mechinaud; Gordon K Smyth; Bob Phillips; Karin A Thursky; Marc Pellegrini; Marcel Doerflinger Journal: Clin Transl Immunology Date: 2022-05-17
Authors: Wang Yaping; Wang Zhe; Chu Zhuling; Li Ruolei; Fan Pengyu; Guo Lili; Ji Cheng; Zhang Bo; Liu Liuyin; Hou Guangdong; Wang Yaoling; Hou Niuniu; Ling Rui Journal: Front Genet Date: 2022-09-29 Impact factor: 4.772