Asparagine drives immune evasion in bladder cancer via RIG-I stability and type I IFN signaling
Wenjie Wei, Hongzhao Li, Shuo Tian, Chi Zhang, Junxiao Liu, Wen Tao, Tianwei Cai, Yuhao Dong, Chuang Wang, Dingyi Lu, Yakun Ai, Wanlin Zhang, Hanfeng Wang, Kan Liu, Yang Fan, Yu Gao, Qingbo Huang, Xin Ma, Baojun Wang, Xu Zhang, Yan Huang
Wenjie Wei, Hongzhao Li, Shuo Tian, Chi Zhang, Junxiao Liu, Wen Tao, Tianwei Cai, Yuhao Dong, Chuang Wang, Dingyi Lu, Yakun Ai, Wanlin Zhang, Hanfeng Wang, Kan Liu, Yang Fan, Yu Gao, Qingbo Huang, Xin Ma, Baojun Wang, Xu Zhang, Yan Huang
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Research Article Cell biology Immunology

Asparagine drives immune evasion in bladder cancer via RIG-I stability and type I IFN signaling

Abstract

Tumor cells often employ many ways to restrain type I IFN signaling to evade immune surveillance. However, whether cellular amino acid metabolism regulates this process remains unclear, and its effects on antitumor immunity are relatively unexplored. Here, we found that asparagine inhibited IFN-I signaling and promoted immune escape in bladder cancer. Depletion of asparagine synthetase (ASNS) strongly limited in vivo tumor growth in a CD8+ T cell–dependent manner and boosted immunotherapy efficacy. Moreover, clinically approved L-asparaginase (ASNase),synergized with anti–PD-1 therapy in suppressing tumor growth. Mechanistically, asparagine can directly bind to RIG-I and facilitate CBL-mediated RIG-I degradation, thereby suppressing IFN signaling and antitumor immune responses. Clinically, tumors with higher ASNS expression show decreased responsiveness to immune checkpoint inhibitor therapy. Together, our findings uncover asparagine as a natural metabolite to modulate RIG-I–mediated IFN-I signaling, providing the basis for developing the combinatorial use of ASNase and anti–PD-1 for bladder cancer.

Authors

Wenjie Wei, Hongzhao Li, Shuo Tian, Chi Zhang, Junxiao Liu, Wen Tao, Tianwei Cai, Yuhao Dong, Chuang Wang, Dingyi Lu, Yakun Ai, Wanlin Zhang, Hanfeng Wang, Kan Liu, Yang Fan, Yu Gao, Qingbo Huang, Xin Ma, Baojun Wang, Xu Zhang, Yan Huang

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Figure 4

Asparagine facilitates the ubiquitination degradation of RIG-I.

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Asparagine facilitates the ubiquitination degradation of RIG-I. (A) qRT-...
(A) qRT-PCR and Western blot showed the expression levels of Rig-i mRNA and protein in the indicated murine bladder cancer cells. (B) qRT-PCR and Western blot showed the expression levels of RIG-I mRNA and protein in the indicated UMUC3 cells. (C) qRT-PCR and Western blot showed the expression levels of Rig-i mRNA and protein in the indicated murine bladder cancer cells. (D) qRT-PCR and Western blot showed the expression levels of RIG-I mRNA and protein in the indicated UMUC3 cells. (E) qRT-PCR showed the expression levels of IFN-β in RIG-I–overexpressed HEK293T cells cultured in complete medium (Comp) and medium added Asn (1 mM) for 48 hours. Western blot showed the levels of RIG-I protein in the indicated groups. (FH) Western blot revealed the degradation kinetics of Rig-i protein in the indicated Murine bladder cancer cells. The degradation rate of Rig-i protein was quantified by band intensity. (I) Western blot revealed the degradation kinetics of RIG-I protein in the indicated UMUC3 cells. The degradation rate of RIG-I protein was quantified by band intensity. (J) Western blot analysis showed the Rig-i expression in the indicated MBT2 cells. (K) Western blot analysis showed the RIG-I expression in the indicated MB49 or UMUC3 cells. (L) HEK293T cells were transfected with Flag-RIG-I and cultured in complete medium (Comp) or medium added Asn (1 mM) for 48 hours, followed by coimmunoprecipitation and immunoblotting analysis with the indicated antibodies. (M) HEK293T cells were transfected with Flag–RIG-I and with scramble or shASNS#1 for 48 hours, followed by coimmunoprecipitation and immunoblotting analysis with the indicated antibodies. Data were mean ± SD. Statistical significance was calculated by 2 tailed unpaired Student’s t tests for AE and GI. **P < 0.01.