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. 2025 Sep;645(8079):244-253.
doi: 10.1038/s41586-025-09202-9. Epub 2025 Jun 25.

Rescuing dendritic cell interstitial motility sustains antitumour immunity

Haichao Tang #  1   2   3   4 Zongfang Wei #  2   3   4 Bei Zheng  2   4 Yumeng Cai  5 Peihan Wu  2   4 Lulu Wu  2   3   4 Xiaohe Ma  2   3   4 Yanqin Chen  2   4 Si Su  5 Jinmin Xu  2   3   4 Yu Qiao  2   4 Ying Zhang  2   3   4 Juju Miao  2   3   4 Zijing Yu  2   4 Yaodong Zhao  2   3   4 Zhen Xia  2   4 Rongjing Zhou  6 Jian Liu  7 Jufeng Guo  7 Zhaoyuan Liu  8 Qi Xie  2   4 Florent Ginhoux  8   9 Luming Zhao  2   3   4 Xu Li  2   4 Bing Xia  6 Huanwen Wu  5 Yongdeng Zhang  2   4 Ting Zhou  10   11   12
Affiliations

Rescuing dendritic cell interstitial motility sustains antitumour immunity

Haichao Tang et al. Nature. 2025 Sep.

Abstract

The dendritic cell (DC)-initiated and sustained cancer immunity cycle is indispensable for effective endogenous and therapeutically mobilized antitumour T cell responses1-8. This necessitates the continuous migration of antigen-carrying DCs from the tumour microenvironment (TME) to the tumour draining lymph nodes (tdLNs)7-13. Here, through longitudinal analysis of human and mouse tumours, we observed a progressive decrease in migratory conventional DCs (mig-cDCs) in the tdLNs during tumour progression. This decline compromised tumour-specific T cell priming and subsequent T cell supply to the TME. Using a genome-wide in vivo CRISPR screen, we identified phosphodiesterase 5 (PDE5) and its substrate cyclic guanosine monophosphate (cGMP) as key modulators of DC migration. Advanced tumours disrupted cGMP synthesis in DCs to decrease their motility, while PDE5 perturbation preserved the cGMP pool to restore DC migration. Mechanistically, cGMP enhanced myosin-II activity through Rho-associated factors, extending the paradigm of cGMP-regulated amoeboid migration from Dictyostelium to mammalian immune cells. Pharmacological inhibition of PDE5 using sildenafil restored mig-cDC homing to late-stage tdLNs and sustained antitumour immunity in a DC-dependent manner. Our findings bridge fundamental DC interstitial motility to antitumour immunity, revealing that its disruption in chaotic TME promotes immune evasion, and its enhancement offers a promising direction for DC-centric immunotherapy.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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