Rocaglamide promotes the infiltration and antitumor immunity of NK cells by activating cGAS-STING signaling in non-small cell lung cancer

Background: Natural killer (NK) cell-based immunotherapy is clinically limited due to insufficient tumor infiltration in solid tumors. We have previously found that the natural product rocaglamide (RocA) can enhance NK cell-mediated killing of non-small cell lung cancer (NSCLC) cells by inhibiting autophagy, and autophagic inhibition has been shown to increase NK cell tumor infiltration in melanoma. Therefore, we hypothesized that RocA could increase NK cell infiltration in NSCLC by autophagy inhibition. Methods: Flow cytometry, RNA-sequencing, real-time PCR, Western blotting analysis, and xenograft tumor model were utilized to assess the infiltration of NK cells and the underlying mechanism. Results: RocA significantly increased the infiltration of NK cells and the expressions of CCL5 and CXCL10 in NSCLC cells, which could not be reversed by the inhibitions of autophagy/ULK1, JNK and NF-κB. However, such up-regulation could be suppressed by the inhibitions of TKB1 and STING. Furthermore, RocA dramatically activated the cGAS (cyclic GMP-AMP synthase)-STING (stimulator of interferon genes) signaling pathway, and the inhibition/depletion of STING ablated the up-regulation of CCL5 and CXCL10, NK cell infiltration, and tumor regression induced by RocA. Besides, RocA damaged mitochondrial DNA (mtDNA) and promoted the cytoplasmic release of mtDNA. The mPTP inhibitor cyclosporin A could reverse RocA-induced cytoplasmic release of mtDNA. Conclusions: RocA could promote NK cell infiltration by activating cGAS-STING signaling via targeting mtDNA, but not by inhibiting autophagy. Taken together, our current findings suggested that RocA was a potent cGAS-STING agonist and had a promising potential in cancer immunotherapy, especially in NK cell-based immunotherapy.

[1]  Chuan-Yuan Li,et al.  ATM inhibition enhances cancer immunotherapy by promoting mtDNA leakage/cGAS-STING activation. , 2020, The Journal of clinical investigation.

[2]  J. Neuzil,et al.  Mitocans Revisited: Mitochondrial Targeting as Efficient Anti-Cancer Therapy , 2020, International journal of molecular sciences.

[3]  J. Welsh,et al.  Role of Mitochondria in Cancer Immune Evasion and Potential Therapeutic Approaches , 2020, Frontiers in Immunology.

[4]  Christopher J. Tonkin,et al.  TDP-43 Triggers Mitochondrial DNA Release via mPTP to Activate cGAS/STING in ALS , 2020, Cell.

[5]  S. Dhanasekaran,et al.  Emerging insights into mitochondria-specific targeting and drug delivering strategies: Recent milestones and therapeutic implications , 2020, Saudi journal of biological sciences.

[6]  Zhijian J. Chen,et al.  Structures and Mechanisms in the cGAS-STING Innate Immunity Pathway. , 2020, Immunity.

[7]  S. Tait,et al.  Mitochondrial DNA in inflammation and immunity , 2020, EMBO reports.

[8]  A. Pera,et al.  Current progress in NK cell biology and NK cell-based cancer immunotherapy , 2020, Cancer Immunology, Immunotherapy.

[9]  É. Vivier,et al.  SnapShot: Natural Killer Cells , 2020, Cell.

[10]  L. Galluzzi,et al.  Mitochondrial control of innate immune signaling by irradiated cancer cells , 2020, Oncoimmunology.

[11]  B. Zhivotovsky,et al.  Mitochondrial Involvement in Migration, Invasion and Metastasis , 2019, Front. Cell Dev. Biol..

[12]  M. Cairo,et al.  Overcoming Resistance to Natural Killer Cell Based Immunotherapies for Solid Tumors , 2019, Front. Oncol..

[13]  T. Sayers,et al.  Sensitization of renal carcinoma cells to TRAIL-induced apoptosis by rocaglamide and analogs , 2018, Scientific Reports.

[14]  Shiguo Zhu,et al.  Rocaglamide enhances NK cell-mediated killing of non-small cell lung cancer cells by inhibiting autophagy , 2018, Autophagy.

[15]  G. Berchem,et al.  Driving Natural Killer cells toward the melanoma tumor battlefield: Autophagy as a valuable therapeutic target , 2018, Oncoimmunology.

[16]  G. Berchem,et al.  Targeting autophagy blocks melanoma growth by bringing natural killer cells to the tumor battlefield , 2018, Autophagy.

[17]  L. Galluzzi,et al.  Mitochondrial metabolism and cancer , 2017, Cell Research.

[18]  C. Robert,et al.  Targeting autophagy inhibits melanoma growth by enhancing NK cells infiltration in a CCL5-dependent manner , 2017, Proceedings of the National Academy of Sciences.

[19]  A. Lundqvist,et al.  Genetic engineering of human NK cells to express CXCR2 improves migration to renal cell carcinoma , 2017, Journal of Immunotherapy for Cancer.

[20]  K. David,et al.  Targeting prohibitins with chemical ligands inhibits KRAS-mediated lung tumours , 2017, Oncogene.

[21]  M. Haigis,et al.  Mitochondria and Cancer , 2016, Cell.

[22]  B. Damania,et al.  The cGAS-STING Defense Pathway and Its Counteraction by Viruses , 2016, Cell Host & Microbe.

[23]  Ying He,et al.  Rocaglamide overcomes tumor necrosis factor-related apoptosis-inducing ligand resistance in hepatocellular carcinoma cells by attenuating the inhibition of caspase-8 through cellular FLICE-like-inhibitory protein downregulation , 2014, Molecular medicine reports.

[24]  R. Childs,et al.  CXCL10-induced migration of adoptively transferred human natural killer cells toward solid tumors causes regression of tumor growth in vivo , 2015, Cancer Immunology, Immunotherapy.

[25]  M. Boerries,et al.  The natural anticancer compound rocaglamide selectively inhibits the G1‐S‐phase transition in cancer cells through the ATM/ATR‐mediated Chk1/2 cell cycle checkpoints , 2014, International journal of cancer.

[26]  L. Wang,et al.  Membrane‐bound interleukin‐21 and CD137 ligand induce functional human natural killer cells from peripheral blood mononuclear cells through STAT‐3 activation , 2013, Clinical and experimental immunology.

[27]  S. Fulda,et al.  Rocaglamide and a XIAP inhibitor cooperatively sensitize TRAIL‐mediated apoptosis in Hodgkin's lymphomas , 2012, International journal of cancer.

[28]  M. Koch,et al.  Natural Killer Cells are Scarce in Colorectal Carcinoma Tissue Despite High Levels of Chemokines and Cytokines , 2011, Clinical Cancer Research.

[29]  P. Krammer,et al.  Rocaglamide breaks TRAIL resistance in HTLV-1-associated adult T-cell leukemia/lymphoma by translational suppression of c-FLIP expression , 2011, Cell Death and Differentiation.

[30]  Marjorie E. Adams,et al.  Targeting , 2019, Systems Engineering for Ethical Autonomous Systems.

[31]  S. Tooze,et al.  siRNA Screening of the Kinome Identifies ULK1 as a Multidomain Modulator of Autophagy* , 2007, Journal of Biological Chemistry.

[32]  G. Clayman,et al.  Chemokines in cancer , 2001, Expert Reviews in Molecular Medicine.