Divergent local and systemic antitumor response in primary uveal melanomas.
Francesca LucibelloAna Ines LalanneAnne-Laure Le GacAbdoulaye SoumareSetareh AflakiJoanna CyrtaLea DubreuilMartin MestdaghMarion SalouAlexandre HouyChristina EkwegbaraCamille JametSophie GardratAnais Le VenKarine BernardeauNathalie CassouxAlexandre MatetDenis MalaiseGaëlle PierronSophie Piperno-NeumannMarc-Henri SternManuel J RodriguesOlivier LantzPublished in: The Journal of experimental medicine (2024)
Uveal melanoma (UM) is the most common cancer of the eye. The loss of chromosome 3 (M3) is associated with a high risk of metastases. M3 tumors are more infiltrated by T-lymphocytes than low-risk disomic-3 (D3) tumors, contrasting with other tumor types in which T cell infiltration correlates with better prognosis. Whether these T cells represent an antitumor response and how these T cells would be primed in the eye are both unknown. Herein, we characterized the T cells infiltrating primary UMs. CD8+ and Treg cells were more abundant in M3 than in D3 tumors. CD39+PD-1+CD8+ T cells were enriched in M3 tumors, suggesting specific responses to tumor antigen (Ag) as confirmed using HLA-A2:Melan-A tetramers. scRNAseq-VDJ analysis of T cells evidenced high numbers of proliferating CD39+PD1+CD8+ clonal expansions, suggesting in situ antitumor Ag responses. TCRseq and tumor-Ag tetramer staining characterized the recirculation pattern of the antitumor responses in M3 and D3 tumors. Thus, tumor-Ag responses occur in localized UMs, raising the question of the priming mechanisms in the absence of known lymphatic drainage.