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TBK1-Zyxin signaling controls tumor-associated macrophage recruitment to mitigate antitumor immunity.

Ruyuan ZhouMengqiu WangXiao LiYutong LiuYihan YaoAilian WangChen ChenQian ZhangQirou WuQi ZhangDante NeculaiBing XiaJian-Zhong ShaoXin-Hua FengTingbo LiangJian ZouXiaojian WangPing-Long Xu
Published in: The EMBO journal (2024)
Mechanical control is fundamental for cellular localization within a tissue, including for tumor-associated macrophages (TAMs). While the innate immune sensing pathways cGAS-STING and RLR-MAVS impact the pathogenesis and therapeutics of malignant diseases, their effects on cell residency and motility remain incompletely understood. Here, we uncovered that TBK1 kinase, activated by cGAS-STING or RLR-MAVS signaling in macrophages, directly phosphorylates and mobilizes Zyxin, a key regulator of actin dynamics. Under pathological conditions and in STING or MAVS signalosomes, TBK1-mediated Zyxin phosphorylation at S143 facilitates rapid recruitment of phospho-Zyxin to focal adhesions, leading to subsequent F-actin reorganization and reduced macrophage migration. Intratumoral STING-TBK1-Zyxin signaling was evident in TAMs and critical in antitumor immunity. Furthermore, myeloid-specific or global disruption of this signaling decreased the population of CD11b +  F4/80 + TAMs and promoted PD-1-mediated antitumor immunotherapy. Thus, our findings identify a new biological function of innate immune sensing pathways by regulating macrophage tissue localization, thus providing insights into context-dependent mitigation of antitumor immunity.
Keyphrases
  • innate immune
  • adipose tissue
  • acute myeloid leukemia
  • bone marrow
  • single cell
  • dendritic cells
  • stem cells
  • protein kinase
  • escherichia coli
  • transcription factor
  • biofilm formation
  • quantum dots
  • cell migration