Hypoxia-Targeted Immunotherapy with PD-1 Blockade in Head and Neck Cancer
Risa Wakisaka, Hidekiyo Yamaki, Michihisa Kono, Takahiro Inoue, Ryosuke Sato, Hiroki Komatsuda, Kenzo Ohara, Akemi Kosaka, Takayuki Ohkuri, Toshihiro Nagato, Kan Kishibe, Koh Nakayama, Hiroya Kobayashi, Takumi Kumai, Miki Takahara

TL;DR
This study explores how targeting MTH1 in hypoxic head and neck cancer can improve immunotherapy by enhancing T-cell activity and cytotoxicity.
Contribution
The study introduces a novel MTH1 epitope peptide that activates CD4+ T cells under hypoxia and shows its potential in combination with PD-1 blockade.
Findings
MTH1 expression is elevated in hypoxic head and neck cancer cells and tissues.
A novel MTH1 epitope peptide activates CD4+ helper T cells with cytotoxic activity under hypoxia.
Combining MTH1-targeted immunotherapy with PD-1 blockade enhances T-cell cytotoxicity.
Abstract
Intratumoral hypoxia is associated with poor prognosis and therapeutic resistance by modifying the tumor microenvironment in several cancers. MTH1, a member of the Nudix family, maintains the genomic integrity and viability of tumor cells under hypoxic conditions. This study aimed to investigate whether the antitumor activity of immune cells is effective under hypoxia and whether hypoxia-induced MTH1 could be a target for immunotherapy. We found that MTH1 expression is elevated in hypoxic head and neck cancer cell lines and tissues. A novel MTH1 epitope peptide activates CD4+ helper T cells with cytotoxic activity, and is effective even under hypoxic conditions. Combining MTH1-targeted immunotherapy with PD-1 blockade enhances cytotoxicity. These results suggest that MTH1-targeted immunotherapy combined with checkpoint blockade could effectively treat hypoxic tumors by maintaining…
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Taxonomy
TopicsCancer, Hypoxia, and Metabolism · RNA modifications and cancer · Immune Cell Function and Interaction
