Neoantigen-specific cytotoxic Tr1 CD4 T cells suppress cancer immunotherapy

Hussein Sultan; Yoshiko Takeuchi; Jeffrey P. Ward; Naveen Sharma; Tiantian Liu; Vladimir Sukhov; Maria Firulyova; Yuang Song; Samuel Ameh; Simone Brioschi; Darya Khantakova; Cora D. Arthur; J. Michael White; Heather Kohlmiller; Andres Μ. Salazar; Robert Burns; Helio A. Costa; Kelly D. Moynihan; Yik A. Yeung; Ivana M. Djuretic; Ton N. Schumacher; Kathleen C. F. Sheehan; Marco Colonna; James P. Allison; Kenneth M. Murphy; Maxim N. Artyomov; Robert D. Schreiber

doi:10.1038/s41586-024-07752-y

Neoantigen-specific cytotoxic Tr1 CD4 T cells suppress cancer immunotherapy

Hussein Sultan(Washington University in St. Louis), Yoshiko Takeuchi(Washington University in St. Louis), Jeffrey P. Ward(Washington University in St. Louis), Naveen Sharma(The University of Texas MD Anderson Cancer Center), Tiantian Liu(Washington University in St. Louis), Vladimir Sukhov(Washington University in St. Louis), Maria Firulyova(Federal Almazov North-West Medical Research Centre), Yuang Song(Washington University in St. Louis), Samuel Ameh(Washington University in St. Louis), Simone Brioschi(Washington University in St. Louis), Darya Khantakova(Washington University in St. Louis), Cora D. Arthur(Washington University in St. Louis), J. Michael White(Washington University in St. Louis), Heather Kohlmiller(Washington University in St. Louis), Andres Μ. Salazar(Oncovir (United States)), Robert Burns(Natera (United States)), Helio A. Costa(Natera (United States)), Kelly D. Moynihan, Yik A. Yeung, Ivana M. Djuretic, Ton N. Schumacher(Leiden University), Kathleen C. F. Sheehan(Washington University in St. Louis), Marco Colonna(Washington University in St. Louis), James P. Allison(The University of Texas MD Anderson Cancer Center), Kenneth M. Murphy(Washington University in St. Louis), Maxim N. Artyomov(Washington University in St. Louis), Robert D. Schreiber(University of St Andrews)

Nature

July 24, 2024

10.1038/s41586-024-07752-y

Cited by 84Open Access

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Abstract

. Yet, the nature and function of the latter remain unclear. Here, using vaccines containing MHC class I (MHC-I) neoantigens (neoAgs) and different doses of tumour-derived MHC-II neoAgs, we discovered that whereas the inclusion of vaccines with low doses of MHC-II-restricted peptides (LDVax) promoted tumour rejection, vaccines containing high doses of the same MHC-II neoAgs (HDVax) inhibited rejection. Characterization of the inhibitory cells induced by HDVax identified them as type 1 regulatory T (Tr1) cells expressing IL-10, granzyme B, perforin, CCL5 and LILRB4. Tumour-specific Tr1 cells suppressed tumour rejection induced by anti-PD1, LDVax or adoptively transferred tumour-specific effector T cells. Mechanistically, HDVax-induced Tr1 cells selectively killed MHC-II tumour antigen-presenting type 1 conventional dendritic cells (cDC1s), leading to low numbers of cDC1s in tumours. We then documented modalities to overcome this inhibition, specifically via anti-LILRB4 blockade, using a CD8-directed IL-2 mutein, or targeted loss of cDC2/monocytes. Collectively, these data show that cytotoxic Tr1 cells, which maintain peripheral tolerance, also inhibit antitumour responses and thereby function to impede immune control of cancer.

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