1. T6SS translocates a micropeptide to suppress STING-mediated innate immunity by sequestering manganese
- Author
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Lingfei Hu, Dongsheng Zhou, Qinmeng Liu, Lei Xu, Lingfang Zhu, Xihui Shen, Changfu Li, Wenhui Yang, Zhiqiang Lu, Yao Wang, Li Mengyuan, Damin Pan, Wang Xiao, Yadong Yang, Chenguang Wang, and Zhengfan Jiang
- Subjects
Manganese ,Multidisciplinary ,Innate immune system ,biology ,Chemistry ,Effector ,Membrane Proteins ,Virulence ,Type VI Secretion Systems ,Biological Sciences ,biology.organism_classification ,Immunity, Innate ,Cell biology ,Mice, Inbred C57BL ,Mice ,Protein Transport ,Immune system ,Yersinia pseudotuberculosis ,Immunity ,Stimulator of interferon genes ,Animals ,Protein Binding ,Type VI secretion system - Abstract
Cellular ionic concentrations are a central factor orchestrating host innate immunity, but no pathogenic mechanism that perturbs host innate immunity by directly targeting metal ions has yet been described. Here, we report a unique virulence strategy of Yersinia pseudotuberculosis (Yptb) involving modulation of the availability of Mn(2+), an immunostimulatory metal ion in host cells. We showed that the Yptb type VI secretion system (T6SS) delivered a micropeptide, TssS, into host cells to enhance its virulence. The mutant strain lacking TssS (ΔtssS) showed substantially reduced virulence but induced a significantly stronger host innate immune response, indicating an antagonistic role of this effector in host antimicrobial immunity. Subsequent studies revealed that TssS is a Mn(2+)-chelating protein and that its Mn(2+)-chelating ability is essential for the disruption of host innate immunity. Moreover, we showed that Mn(2+) enhances the host innate immune response to Yptb infection by activating the stimulator of interferon genes (STING)-mediated immune response. Furthermore, we demonstrated that TssS counteracted the cytoplasmic Mn(2+) increase to inhibit the STING-mediated innate immune response by sequestering Mn(2+). Finally, TssS-mediated STING inhibition sabotaged bacterial clearance in vivo. These results reveal a previously unrecognized bacterial immune evasion strategy involving modulation of the bioavailability of intracellular metal ions and provide a perspective on the role of the T6SS in pathogenesis.
- Published
- 2021
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