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Peroxynitrite in the tumor microenvironment changes the profile of antigens allowing escape from cancer immunotherapy.

Cancer cell (2022-10-12)
Evgenii N Tcyganov, Emilio Sanseviero, Douglas Marvel, Thomas Beer, Hsin-Yao Tang, Peter Hembach, David W Speicher, Qianfei Zhang, Laxminarasimha R Donthireddy, Ali Mostafa, Sabina Tsyganova, Vladimir Pisarev, Terri Laufer, Dmitriy Ignatov, Soldano Ferrone, Christiane Meyer, Hélène Maby-El Hajjami, Daniel E Speiser, Sooner Altiok, Scott Antonia, Xiaowei Xu, Wei Xu, Cathy Zheng, Lynn M Schuchter, Ravi K Amaravadi, Tara C Mitchell, Giorgos C Karakousis, Zhe Yuan, Luis J Montaner, Esteban Celis, Dmitry I Gabrilovich
RÉSUMÉ

Cancer immunotherapy often depends on recognition of peptide epitopes by cytotoxic T lymphocytes (CTLs). The tumor microenvironment (TME) is enriched for peroxynitrite (PNT), a potent oxidant produced by infiltrating myeloid cells and some tumor cells. We demonstrate that PNT alters the profile of MHC class I bound peptides presented on tumor cells. Only CTLs specific for PNT-resistant peptides have a strong antitumor effect in vivo, whereas CTLs specific for PNT-sensitive peptides are not effective. Therapeutic targeting of PNT in mice reduces resistance of tumor cells to CTLs. Melanoma patients with low PNT activity in their tumors demonstrate a better clinical response to immunotherapy than patients with high PNT activity. Our data suggest that intratumoral PNT activity should be considered for the design of neoantigen-based therapy and also may be an important immunotherapeutic target.

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Sigma-Aldrich
Anti-Nitrotyrosine antibody produced in rabbit, affinity isolated antibody, buffered aqueous solution