Polyamine sequestration of 23-cGAMP constrains intercellular transmission and STING engagement to subvert antitumor immunity
Yunjin Ma, Chunyuan Zhao, Jiacheng Guo, Yue Fu, Wei Wang, Jiangong Zhang, Kun Zhao, Xiangbo Meng, Zhongshang Yuan, Chengjiang Gao, Mutian Jia, Ying Qin, Hui Song, Wei Zhao
Yunjin Ma, Chunyuan Zhao, Jiacheng Guo, Yue Fu, Wei Wang, Jiangong Zhang, Kun Zhao, Xiangbo Meng, Zhongshang Yuan, Chengjiang Gao, Mutian Jia, Ying Qin, Hui Song, Wei Zhao
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Research Article Immunology Metabolism

Polyamine sequestration of 23-cGAMP constrains intercellular transmission and STING engagement to subvert antitumor immunity

Abstract

The cyclic dinucleotide 2′3′–cyclic guanosine monophosphate–adenosine monophosphate (2′3′-cGAMP) serves as a central immunotransmitter that propagates stimulator of interferon gene–dependent (STING-dependent) innate immunity across tissues; however, how microenvironmental metabolites regulate its spatiotemporal dynamics remains unknown. Here, we identified polyamines (spermine and spermidine) as critical rheostats controlling 2′3′-cGAMP functionality. Mechanistically, polyamines sequestered 2′3′-cGAMP into polymer-like aggregates, blocking intercellular propagation and suppressing intracellular STING activation by reducing ligand-receptor binding affinity. Deficiency of spermidine and spermine N1-acetyltransferase 1 (SAT1), the rate-limiting enzyme in polyamine catabolism, elevated polyamine levels to entrap extracellular 2′3′-cGAMP and inhibit STING activation. Synergistic administration of endogenous 2′3′-cGAMP with SAT1 stabilizer N1,N11-diethylnorspermine restored 2′3′-cGAMP bioavailability and STING signaling, facilitated type I interferon responses to reprogram immunologically suppressive tumors into immunologically active states and enhanced tumor clearance. Our study established polyamine–cGAMP interactions as a critical spatiotemporal regulatory mechanism for tissue-level immunity, providing a unified model for metabolite-mediated cyclic GMP-AMP synthase–STING (cGAS-STING) regulation across diseases.

Authors

Yunjin Ma, Chunyuan Zhao, Jiacheng Guo, Yue Fu, Wei Wang, Jiangong Zhang, Kun Zhao, Xiangbo Meng, Zhongshang Yuan, Chengjiang Gao, Mutian Jia, Ying Qin, Hui Song, Wei Zhao

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Figure 7

DENSpm potentiates antitumor immunity via polyamine catabolic reprogramming.

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DENSpm potentiates antitumor immunity via polyamine catabolic reprogramm...
(A) ELISA analysis of IFN-β and CXCL10 secretion in Cgas–/– or Sting1–/– BMDMs coculture with B16F10, pretreated with DENSpm, followed by 2′3′-cGAMP stimulation. (B) Experimental scheme for C57BL/6 mice bearing B16F10 subcutaneous tumors. (CK) C57BL/6 mice at day 13 after B16F10 tumor inoculation treated with DENSpm/2′3′-cGAMP combination. Quantitative liquid chromatography‑tandem mass spectrometry (LC‑MS/MS) quantification of extracellular spermine and spermidine (C; n = 6 per condition) or 2′3′-cGAMP (D; n = 4 per condition). ELISA analysis of IFN-β secretion in tumor (E; n = 5 per condition). Quantification of CD8+ T cell (F) or MDSC (J) populations per gram tumor from tumor-bearing mice (n = 6 per condition). Flow cytometry analysis showing the percentage of intratumoral CD8+ T cells expressing GZMB (G; n = 6 per condition), IFN-γ (H; n = 7 per condition), and TNF-α (I; n = 7 per condition) or CD4+FOXP3+ Tregs (K; n = 6 per condition) in B16F10 tumor. (LN) Tumor volume curve (L; n = 8 per condition), tumor weight (M; n = 7 per condition), or survival (N; n = 15 per condition) of C57BL/6 mice after B16F10 tumor inoculation treated with DENSpm/2′3′-cGAMP combination. Statistical significance was determined using an unpaired 2-sided t test and adjustments were made for multiple comparisons in A, CK, and M, 2-way ANOVA in L, or the log-rank Mantel-Cox test in N. The data are shown as the mean ± SEM. *P <0.05, **P <0.01. Similar results were obtained from 3 independent experiments. I.T., intratumoral injection; APC, allophycocyanin; PE, phycoerythrin; FITC, fluorescein isothiocyanate.