Author
Listed:
- Jiajia Zhou
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Kole Tison
(University of Michigan Medical School
University of Michigan Rogel Cancer Center
University of Michigan
University of Michigan Medical School)
- Haibin Zhou
(University of Michigan Medical School)
- Longchuan Bai
(University of Michigan Medical School)
- Ranjan Kumar Acharyya
(University of Michigan Medical School)
- Donna McEachern
(University of Michigan Medical School)
- Hoda Metwally
(University of Michigan Medical School)
- Yu Wang
(University of Michigan Medical School)
- Michael Pitter
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Jae Eun Choi
(University of Michigan Medical School
University of Michigan Medical School)
- Linda Vatan
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Peng Liao
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Jiali Yu
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Heng Lin
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Long Jiang
(University of Michigan Rogel Cancer Center
University of Michigan Medical School)
- Shuang Wei
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Xue Gao
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Sara Grove
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Abhijit Parolia
(University of Michigan Medical School
University of Michigan Medical School)
- Marcin Cieslik
(University of Michigan Medical School
University of Michigan Medical School
University of Michigan Medical School)
- Ilona Kryczek
(University of Michigan Medical School
University of Michigan Rogel Cancer Center)
- Michael D. Green
(University of Michigan Rogel Cancer Center
University of Michigan Medical School)
- Jian-Xin Lin
(National Institutes of Health)
- Arul M. Chinnaiyan
(University of Michigan Medical School
University of Michigan Medical School
University of Michigan Medical School
University of Michigan)
- Warren J. Leonard
(National Institutes of Health)
- Shaomeng Wang
(University of Michigan Medical School
University of Michigan Medical School
University of Michigan
University of Michigan Medical School)
- Weiping Zou
(University of Michigan Medical School
University of Michigan Rogel Cancer Center
University of Michigan
University of Michigan Medical School)
Abstract
Immune checkpoint blockade (ICB) has transformed cancer therapy1,2. The efficacy of immunotherapy depends on dendritic cell-mediated tumour antigen presentation, T cell priming and activation3,4. However, the relationship between the key transcription factors in dendritic cells and ICB efficacy remains unknown. Here we found that ICB reprograms the interplay between the STAT3 and STAT5 transcriptional pathways in dendritic cells, thereby activating T cell immunity and enabling ICB efficacy. Mechanistically, STAT3 restrained the JAK2 and STAT5 transcriptional pathway, determining the fate of dendritic cell function. As STAT3 is often activated in the tumour microenvironment5, we developed two distinct PROTAC (proteolysis-targeting chimera) degraders of STAT3, SD-36 and SD-2301. STAT3 degraders effectively degraded STAT3 in dendritic cells and reprogrammed the dendritic cell–transcriptional network towards immunogenicity. Furthermore, STAT3 degrader monotherapy was efficacious in treatment of advanced tumours and ICB-resistant tumours without toxicity in mice. Thus, the crosstalk between STAT3 and STAT5 transcriptional pathways determines the dendritic cell phenotype in the tumour microenvironment and STAT3 degraders hold promise for cancer immunotherapy.
Suggested Citation
Jiajia Zhou & Kole Tison & Haibin Zhou & Longchuan Bai & Ranjan Kumar Acharyya & Donna McEachern & Hoda Metwally & Yu Wang & Michael Pitter & Jae Eun Choi & Linda Vatan & Peng Liao & Jiali Yu & Heng L, 2025.
"STAT5 and STAT3 balance shapes dendritic cell function and tumour immunity,"
Nature, Nature, vol. 643(8071), pages 519-528, July.
Handle:
RePEc:nat:nature:v:643:y:2025:i:8071:d:10.1038_s41586-025-09000-3
DOI: 10.1038/s41586-025-09000-3
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