Xiaohui Wang1,2, Xiang Lin3, Zihan Zheng4, Bingtai Lu5, Jun Wang5, Andy Hee-Meng Tan6, Meng Zhao7, Jia Tong Loh6,8, Sze Wai Ng6, Qian Chen3, Fan Xiao3, Enyu Huang3, King-Hung Ko3, Zhong Huang9, Jingyi Li4, Kin-Hang Kok10, Gen Lu5, Xiaohui Liu11, Kong-Peng Lam6,8, Wanli Liu7, Yuxia Zhang5, Kwok-Yung Yuen10, Tak Wah Mak3,12, Liwei Lu13,14. 1. Department of Pathology and Shenzhen Institute of Research and Innovation, The University of Hong Kong, Hong Kong, China. xiaohuiwang@hku.hk. 2. Department of Microbiology, State Key Laboratory of Emerging Infectious Diseases, The University of Hong Kong, Hong Kong, China. xiaohuiwang@hku.hk. 3. Department of Pathology and Shenzhen Institute of Research and Innovation, The University of Hong Kong, Hong Kong, China. 4. Chongqing International Institute for Immunology, Chongqing, China. 5. Department of Respiratory Medicine and Guangzhou Institute of Pediatrics, Guangzhou Women and Children's Medical Center, Guangzhou Medical University, Guangzhou, China. 6. Bioprocessing Technology Institute, Agency for Science, Technology and Research, Singapore, Singapore. 7. Ministry of Education Key Laboratory of Protein Sciences, Center for Life Sciences, Collaborative Innovation Center for Diagnosis and Treatment of Infectious Diseases, Institute for Immunology, School of Life Sciences, Tsinghua University, Beijing, China. 8. Singapore Immunology Network, Agency for Science, Technology and Research, Singapore, Singapore. 9. Department of Pathogen Biology and Immunology, Shenzhen University School of Medicine, Shenzhen, China. 10. Department of Microbiology, State Key Laboratory of Emerging Infectious Diseases, The University of Hong Kong, Hong Kong, China. 11. National Protein Science Facility, Tsinghua University, Beijing, China. 12. The Campbell Family Institute for Breast Cancer Research at Princess Margaret Cancer Centre, Ontario Cancer Institute, University Health Network, Toronto, ON, Canada. 13. Department of Pathology and Shenzhen Institute of Research and Innovation, The University of Hong Kong, Hong Kong, China. liweilu@hku.hk. 14. Chongqing International Institute for Immunology, Chongqing, China. liweilu@hku.hk.
Abstract
Innate immunity is important for host defense by eliciting rapid anti-viral responses and bridging adaptive immunity. Here, we show that endogenous lipids released from virus-infected host cells activate lung γδ T cells to produce interleukin 17 A (IL-17A) for early protection against H1N1 influenza infection. During infection, the lung γδ T cell pool is constantly supplemented by thymic output, with recent emigrants infiltrating into the lung parenchyma and airway to acquire tissue-resident feature. Single-cell studies identify IL-17A-producing γδ T (Tγδ17) cells with a phenotype of TCRγδhiCD3hiAQP3hiCXCR6hi in both infected mice and patients with pneumonia. Mechanistically, host cell-released lipids during viral infection are presented by lung infiltrating CD1d+ B-1a cells to activate IL-17A production in γδ T cells via γδTCR-mediated IRF4-dependent transcription. Reduced IL-17A production in γδ T cells is detected in mice either lacking B-1a cells or with ablated CD1d in B cells. Our findings identify a local host-immune crosstalk and define important cellular and molecular mediators for early innate defense against lung viral infection.
Innate immunity is important for host defense by eliciting rapid anti-viral responses and bridging adaptive immunity. Here, we show that endogenous lipids released from pan class="Disease">virus-infected host cells activate lung γδ T cells to produce interleukin 17 A (IL-17A) for early protection against H1N1 influenza infection. During infection, the lung γδ T cell pool is constantly supplemented by thymic output, with recent emigrants infiltrating into the lung parenchyma and airway to acquire tissue-resident feature. Single-cell studies identify IL-17A-producing γδ T (Tγδ17) cells with a phenotype of TCRγδhiCD3hiAQP3hiCXCR6hi in both infectedmice and patients with pneumonia. Mechanistically, host cell-released lipids during viral infection are presented by lung infiltrating CD1d+ B-1a cells to activate IL-17A production in γδ T cells via γδTCR-mediated IRF4-dependent transcription. Reduced IL-17A production in γδ T cells is detected in mice either lacking B-1a cells or with ablated CD1d in B cells. Our findings identify a local host-immune crosstalk and define important cellular and molecular mediators for early innate defense against lung viral infection.
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