Spatial analysis reveals targetable macrophage-mediated mechanisms of immune evasion in hepatocellular carcinoma minimal residual disease
L Lemaître, Nia Adeniji, Akanksha Suresh, Reshma Reguram, Josephine Zhang, Jangho Park, A.Krishna Reddy, Alexandro E. Trevino, Aaron T. Mayer, Anja Deutzmann, Aida S. Hansen, Ling Tong, Vinodhini Arjunan, Neeraja Kambham, Brendan C. Visser, Monica M. Dua, Clark A. Bonham, Nishita Kothary, H. Blaize D’Angio, Ryan Preska, Yanay Rosen, James Zou, Vivek Charu, Dean W. Felsher, Renumathy Dhanasekaran
Abstract
Hepatocellular carcinoma (HCC) frequently recurs from minimal residual disease (MRD), which persists after therapy. Here, we identified mechanisms of persistence of residual tumor cells using post-chemoembolization human HCC (n = 108 patients, 1.07 million cells) and a transgenic mouse model of MRD. Through single-cell high-plex cytometric imaging, we identified a spatial neighborhood within which PD-L1 + M2-like macrophages interact with stem-like tumor cells, correlating with CD8+ T cell exhaustion and poor survival. Further, through spatial transcriptomics of residual HCC, we showed that macrophage-derived TGFβ1 mediates the persistence of stem-like tumor cells. Last, we demonstrate that combined blockade of Pdl1 and Tgfβ excluded immunosuppressive macrophages, recruited activated CD8+ T cells and eliminated residual stem-like tumor cells in two mouse models: a transgenic model of MRD and a syngeneic orthotopic model of doxorubicin-resistant HCC. Thus, our spatial analyses reveal that PD-L1+ macrophages sustain MRD by activating the TGFβ pathway in stem-like cancer cells and targeting this interaction may prevent HCC recurrence from MRD. Dhanasekaran and colleagues study minimal residual disease in hepatocellular carcinoma using single-cell spatial transcriptomic and proteomic analysis and find a targetable role for immunosuppressive macrophages.