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Targeting tumor-intrinsic PD-L1 suppresses the progression and aggressiveness of head and neck cancer by inhibiting GSK3 beta-dependent Snail degradation

Cited 5 time in Web of Science Cited 4 time in Scopus
Authors

Ahn, Chi-Hyun; Oh, Kyu-Young; Jin, Bohwan; Lee, Won Woo; Kim, Jihoon; Kim, Hyun-Ji; Park, Dong-Guk; Swarup, Neeti; Chawla, Kunal; Ryu, Mi Heon; Kim, Uk-Kyu; Choi, Su-Jung; Yoon, Hye-Jung; Hong, Seong-Doo; Shin, Ji-Ae; Cho, Sung-Dae

Issue Date
2023-04
Publisher
Springer Verlag
Citation
Cellular Oncology, Vol.46 No.2, pp.s13402-282
Abstract
Purpose PD-L1 is an immune checkpoint protein that allows cells to evade T-cell-mediated immune responses. Herein, we uncover a tumor-intrinsic mechanism of PD-L1 that is responsible for the progression and aggressiveness of HNC and reveal that the extracts of a brown alga can target the tumor-intrinsic signaling pathway of PD-L1. Methods The biological functions of PD-L1 in the proliferation and aggressiveness of HNC cells in vitro were examined by metabolic activity, clonogenic, tumorigenicity, wound healing, migration, and invasion assays. The clinical importance of PD-L1 in the prognosis of patients with HNC was analyzed by immunohistochemistry. The relationship between PD-L1 and EMT was confirmed via western blotting, qPCR, and immunocytochemistry. Results Through our in silico approach, we found that PD-L1 was upregulated in HNC and was correlated with an unfavorable clinical outcome in patients with HNC. PD-L1 was crucial for promoting tumor growth, both in vitro and in vivo. High expression of PD-L1 was closely correlated with LN metastasis in OSCC. PD-L1 facilitated the cytoskeletal reorganization and aggressiveness of HNC cells. Moreover, PD-L1 enhanced the EMT of HNC cells by regulating the Snail/vimentin axis. Consistently, MEIO suppressed the PD-L1/Snail/vimentin axis, thereby inhibiting the aggressiveness of HNC cells. Inhibition of PD-L1 induced by PD-L1 silencing or MEIO treatment caused Snail degradation through a GSK3 beta-dependent mechanism. The tumor-intrinsic function of PD-L1 could be attributed to the regulation of the GSK3 beta/Snail/vimentin axis. Conclusion The discovery of MEIO targeting the tumor-intrinsic function of PD-L1 may prove particularly valuable for the development of novel and effective anticancer drug candidates for HNCs overexpressing PD-L1.
ISSN
2211-3428
URI
https://hdl.handle.net/10371/204987
DOI
https://doi.org/10.1007/s13402-022-00748-8
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  • School of Dentistry
  • Department of Dentistry
Research Area Discovery of molecular targets related to oral cancer metastasis and identification of signal transduction system, Identifying the role of immunological tolerance in oral cancer, Presenting a new concept oral cancer prevention and treatment strategy through identification of major molecular targets and mechanisms related to oral cancer development, 구강암 발병관련 주요 분자표적 및 기전 규명을 통한 신개념 구강암 예방 및 치료전략 제시, 구강암 전이관련 분자표적 발굴 및 신호전달체계 규명, 구강암에서 면연관용의 역할 규명

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