4.6 Article

BG34-200 Immunotherapy of Advanced Melanoma

Journal

CANCERS
Volume 14, Issue 23, Pages -

Publisher

MDPI
DOI: 10.3390/cancers14235911

Keywords

advanced melanoma; immunotherapy; carbohydrate; innate immunity; tumor-draining lymph nodes; combination therapy; T-cell therapy

Categories

Funding

  1. Department of Defense (DoD) Peer-Review Cancer Research program
  2. Career Enhancement Grant (2021-2023) from the Case GI Specialized Program on Research Excellence (GI-SPORE) [E01W81XWH2110804]
  3. Case-Coulter Translational Research Partnership
  4. Case Comprehensive Cancer Center Tumor Immunology Science & Initiative Pancreatic pilot grant
  5. Department of Defense (DoD) Peer-Review Cancer Research program
  6. Case GI Specialized Program on Research Excellence (GI-SPORE) [E01W81XWH2110804]
  7. Case-Coulter Translational Research Partnership
  8. Case Comprehensive Cancer Center Tumor Immunology Science & Initiative Pancreatic pilot grant

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The study suggests that targeting myeloid components using BG34-200 can create systemic antitumor immune responses in advanced melanoma, improving the treatment outcome for patients who do not respond to current therapies.
Simple Summary Immunotherapy using immune checkpoint inhibitors is now the first line standard of care for advanced melanoma but >50% of patients still do not benefit. Using a recently developed plant-derived glucan molecule called BG34-200, we found that targeting elements of the myeloid components are useful in creating systemic antitumor immune responses in advanced melanoma. Scientific findings from this study suggest that BG34-200-based combination therapy can be developed to benefit patients with advanced melanoma who do not respond to current standard of care therapies with and without immunotherapy. High levels of myeloid-derived cells are characteristic of the tumor microenvironment (TME) of advanced melanoma. These cells interact with tumor cells to suppress the development of antitumor immune responses, regulate tumor metastasis, and drive cancer's resistance to virtually all types of therapy. Therefore, methods to disrupt tumor-associated myeloid cell function are actively being sought to find a cure. Our team has recently developed a plant-derived carbohydrate molecule, BG34-200, that modulates tumor-associated myeloid cells by targeting the cell surface receptor CD11b. In this study, we found that BG34-200 IV administration could significantly inhibit tumor growth and improve survival in B16F10 mice with advanced melanoma. Our data supported a model that the entry of BG34-200 into circulating melanoma tumor-associated inflammatory monocytes (TAIMs) could trigger a sequential immune activation: the BG34-200(+) TAIM subsets migrated to tumor and differentiated into monocyte-derived dendritic cells (mo-DCs); then, the BG34-200(+) mo-DCs migrated to tumor draining lymph nodes, where they triggered the generation of tumor-antigen-specific T cells. Based upon these results, we combined BG34-200 treatment with adoptive transfer of TdLN-derived T cells to treat advanced melanoma, which significantly improved animal survival and helped tumor-free survivors be resistant to a second tumor-cell challenge. The scientific findings from this study will allow us to develop new technology and apply BG34-200-based immunotherapy to patients with advanced melanoma who have not responded to current standard of care therapies with and without immunotherapy.

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