<p>Tumor-infiltrating T cells have been the primary focus of cancer immunotherapy; however, accumulating evidence points to a critical role for B cells and plasma cells in shaping responses to immune checkpoint blockade. In this study, we investigated the humoral immune response in 38 patients with hepatocellular carcinoma treated with neoadjuvant anti-programmed cell death protein 1 (PD-1) therapy. In responders, defined by more than 50% tumor necrosis, we observed on-treatment enrichment of clonally expanded IgG1<sup>+</sup> plasma cells within the tumor. Clonal tracking revealed that anti-PD-1 treatment expanded preexisting B cell clones associated with favorable clinical outcomes. Moreover, serum from responders contained IgG1 antibodies specific to cancer/testis antigens, including NY-ESO-1, and these humoral responses were linked to tumor-reactive T cell activity. We independently validated these findings across seven additional cohorts, encompassing single-cell and bulk sequencing data from 500 patients, spatial transcriptomics from seven patients and survival analyses from 1,582 patients. Our findings apply to recently approved treatments, such as PD-1 and vascular endothelial growth factor A (VEGF-A) blockade, but not to chemotherapy alone, suggesting broad relevance to individuals treated with immunotherapy. Collectively, our results demonstrate that PD-1 blockade induces tumor-specific IgG1<sup>+</sup> plasma cell responses that complement cellular immunity and contribute to clinical benefit, underscoring a coordinated humoral−cellular axis in effective antitumor immunity.</p>

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Humoral IgG1 responses to tumor antigens underpin clinical outcomes in immune checkpoint blockade

  • Edgar Gonzalez-Kozlova,
  • Robert Sweeney,
  • Igor Figueiredo,
  • Kevin Tuballes,
  • Sinem Ozbey,
  • Pauline Hamon,
  • Matthew D. Park,
  • Giorgio Ioannou,
  • Yohei Nose,
  • Ruiwei Guo,
  • Paula Restrepo,
  • Mark Buckup,
  • Vladimir Roudko,
  • Clotilde Hennequin,
  • Jessica Le Berichel,
  • Nicholas Venturini,
  • Laszlo Halasz,
  • Leanna Troncoso,
  • Alexandra Tabachnikova,
  • Christie Chang,
  • Amanda Reid,
  • Haley Brown,
  • Theodore Chin,
  • Rafael Cabal,
  • Raphaël Mattiuz,
  • Shingo Eikawa,
  • Diane Marie Del Valle,
  • Tina Ruth Gonsalves,
  • Nelson M. LaMarche,
  • Hajra Jamal,
  • Alona Lansky,
  • Nancy Yi,
  • Daniella Nelson,
  • Jarod Morgenroth-Rebin,
  • Raphael Merand,
  • Bryan Villagomez,
  • Darwin D’Souza,
  • Emir Radkevich,
  • Kai Nie,
  • Zhihong Chen,
  • Yasuko Tada,
  • Hiroyoshi Nishikawa,
  • Stephen C. Ward,
  • Maria Isabel Fiel,
  • Rachel Brody,
  • Parissa Tabrizian,
  • Ganesh Gunasekaran,
  • Alice O. Kamphorst,
  • Noah Cohen,
  • Maria Curotto de Lafaille,
  • Olivia Hapanowicz,
  • Natalie Lucas,
  • Kathy Wu,
  • Nicola James,
  • John C. Lin,
  • Gavin Thurston,
  • Myron Schwartz,
  • Nathalie Fiaschi,
  • Seunghee Kim-Schulze,
  • Miriam Merad,
  • Thomas U. Marron,
  • Sacha Gnjatic

摘要

Tumor-infiltrating T cells have been the primary focus of cancer immunotherapy; however, accumulating evidence points to a critical role for B cells and plasma cells in shaping responses to immune checkpoint blockade. In this study, we investigated the humoral immune response in 38 patients with hepatocellular carcinoma treated with neoadjuvant anti-programmed cell death protein 1 (PD-1) therapy. In responders, defined by more than 50% tumor necrosis, we observed on-treatment enrichment of clonally expanded IgG1+ plasma cells within the tumor. Clonal tracking revealed that anti-PD-1 treatment expanded preexisting B cell clones associated with favorable clinical outcomes. Moreover, serum from responders contained IgG1 antibodies specific to cancer/testis antigens, including NY-ESO-1, and these humoral responses were linked to tumor-reactive T cell activity. We independently validated these findings across seven additional cohorts, encompassing single-cell and bulk sequencing data from 500 patients, spatial transcriptomics from seven patients and survival analyses from 1,582 patients. Our findings apply to recently approved treatments, such as PD-1 and vascular endothelial growth factor A (VEGF-A) blockade, but not to chemotherapy alone, suggesting broad relevance to individuals treated with immunotherapy. Collectively, our results demonstrate that PD-1 blockade induces tumor-specific IgG1+ plasma cell responses that complement cellular immunity and contribute to clinical benefit, underscoring a coordinated humoral−cellular axis in effective antitumor immunity.