STING licensing of type I dendritic cells potentiates antitumor immunity.
Jian WangSuxin LiMaggie WangXu WangShuqing ChenZhichen SunXiubao RenGang HuangBaran D SumerNan YanYang-Xin FuJinming GaoPublished in: Science immunology (2024)
Stimulator of interferon genes (STING) is an immune adaptor protein that senses cyclic GMP-AMP in response to self or microbial cytosolic DNA as a danger signal. STING is ubiquitously expressed in diverse cell populations, including cancer cells, with distinct cellular functions, such as activation of type I interferons, autophagy induction, or triggering apoptosis. It is not well understood whether and which subsets of immune cells, stromal cells, or cancer cells are particularly important for STING-mediated antitumor immunity. Here, using a polymeric STING-activating nanoparticle (PolySTING) with a shock-and-lock dual activation mechanism, we show that conventional type 1 dendritic cells (cDC1s) are essential for STING-mediated rejection of multiple established and metastatic murine tumors. STING status in the host but not in the cancer cells ( Tmem173 -/- ) is important for antitumor efficacy. Specific depletion of cDC1 ( Batf3 -/- ) or STING deficiency in cDC1 ( XCR1 cre STING fl/fl ) abolished PolySTING efficacy, whereas depletion of other myeloid cells had little effect. Adoptive transfer of wild-type cDC1 in Batf3 -/- mice restored antitumor efficacy, whereas transfer of cDC1 with STING or IRF3 deficiency failed to rescue. PolySTING induced a specific chemokine signature in wild-type but not Batf3 -/- mice. Multiplexed immunohistochemistry analysis of STING-activating cDC1s in resected tumors correlates with patient survival. Furthermore, STING-cDC1 signature was increased after neoadjuvant pembrolizumab therapy in patients with non-small cell lung cancer. Therefore, we have defined that a subset of myeloid cells is essential for STING-mediated antitumor immunity with associated biomarkers for prognosis.
Keyphrases
- dendritic cells
- wild type
- cell cycle
- induced apoptosis
- cell cycle arrest
- endoplasmic reticulum stress
- cell death
- small cell lung cancer
- lymph node
- bone marrow
- cell therapy
- acute myeloid leukemia
- oxidative stress
- stem cells
- drug delivery
- squamous cell carcinoma
- single cell
- insulin resistance
- microbial community
- adipose tissue
- metabolic syndrome
- radiation therapy
- skeletal muscle
- rectal cancer
- stress induced
- diabetic rats
- epidermal growth factor receptor