Anti-PD1 blockade as first-line therapy in early-stage unfavorable CHL shows distinct differences in clinical and histologic response. CHL exhibits rare malignant HRS cells in a TME enriched for inflammatory cells, particularly CD4+LAG3+ Tr1s, PDL1+ TAMs, and fewer CD8+ cytotoxic T cells (left). Biopsies following first-line anti–PD1-based therapy in early-stage unfavorable CHL patients show dramatic decrease in CD30+PDL1+ HRS cells along with depletion of Tr1 cells and PDL1+ TAMs, especially in the vicinity of HRS cells, with no expansion of CD8+ cytotoxic T cells (right). These findings underscore significant differences in the TME composition of pre- and posttreatment CHL and favor withdrawal of survival factors rather than cytotoxic immune responses as the most likely mechanism of action in first-line immune checkpoint blockade.

Anti-PD1 blockade as first-line therapy in early-stage unfavorable CHL shows distinct differences in clinical and histologic response. CHL exhibits rare malignant HRS cells in a TME enriched for inflammatory cells, particularly CD4+LAG3+ Tr1s, PDL1+ TAMs, and fewer CD8+ cytotoxic T cells (left). Biopsies following first-line anti–PD1-based therapy in early-stage unfavorable CHL patients show dramatic decrease in CD30+PDL1+ HRS cells along with depletion of Tr1 cells and PDL1+ TAMs, especially in the vicinity of HRS cells, with no expansion of CD8+ cytotoxic T cells (right). These findings underscore significant differences in the TME composition of pre- and posttreatment CHL and favor withdrawal of survival factors rather than cytotoxic immune responses as the most likely mechanism of action in first-line immune checkpoint blockade.

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