Kevin C. Soares scite author profile

Stimulator of interferon genes (STING) is a cytosolic receptor that senses both exogenous and endogenous cytosolic cyclic dinucleotides (CDNs), activating TBK1/IRF3 (interferon regulatory factor 3), NF-κB (nuclear factor κB), and STAT6 (signal transducer and activator of transcription 6) signaling pathways to induce robust type I interferon and proinflammatory cytokine responses. CDN ligands were formulated with granulocyte-macrophage colony-stimulating factor (GM-CSF)–producing cellular cancer vaccines—termed STINGVAX—that demonstrated potent in vivo antitumor efficacy in multiple therapeutic models of established cancer. We found that rationally designed synthetic CDN derivative molecules, including one with an Rp,Rp dithio diastereomer and noncanonical c[A(2′,5′)pA(3′,5′)p] phosphate bridge structure, enhanced antitumor efficacy of STINGVAX in multiple aggressive therapeutic models of established cancer in mice. Antitumor activity was STING-dependent and correlated with increased activation of dendritic cells and tumor antigen–specific CD8+ T cells. Tumors from STINGVAX-treated mice demonstrated marked PD-L1 (programmed death ligand 1) up-regulation, which was associated with tumor-infiltrating CD8+IFNγ+ T cells. When combined with PD-1 (programmed death 1) blockade, STINGVAX induced regression of palpable, poorly immunogenic tumors that did not respond to PD-1 blockade alone.

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Immunotherapy Converts Nonimmunogenic Pancreatic Tumors into Immunogenic Foci of Immune Regulation

Lutz

Bigelow

et al. 2014

441

402

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Pancreatic ductal adenocarcinoma (PDAC) is considered a “non-Immunogenic” neoplasm. Single agent immunotherapies have failed to demonstrate significant clinical activity in PDAC and other “non-immunogenic” tumors, in part due to a complex tumor microenvironment (TME) that provides a formidable barrier to immune infiltration and function. We designed a neo-adjuvant and adjuvant clinical trial comparing an irradiated, granulocyte-macrophage colony-stimulating factor (GM-CSF)-secreting, allogeneic PDAC vaccine (GVAX) given as single agent, or in combination with low dose cyclophosphamide (Cy) to deplete regulatory T cells (Tregs), to study how the TME is altered by immunotherapy. Examination of resected PDACs revealed the formation of vaccine-induced intratumoral tertiary lymphoid aggregates in 33/39 patients two weeks following vaccine treatment. Immunohistochemical analysis showed these aggregates to be regulatory structures of adaptive immunity. Microarray analysis of microdissected aggregates identified gene-expression signatures in five signaling pathways involved in regulating immune cell activation and trafficking that were associated with improved post-vaccination responses. A suppressed Treg pathway and an enhanced Th17 pathway within these aggregates were associated with improved survival, enhanced post-vaccination mesothelin-specific T-cell responses and increased intratumoral Teffector/Treg ratios. This study provides the first example of immune-based therapy converting a “non-immunogenic” neoplasm into an “immunogenic” neoplasm by inducing infiltration of T cells and development of tertiary lymphoid structures in the TME. Post-GVAX T-cell infiltration and aggregate formation resulted in the upregulation of immunosuppressive regulatory mechanisms including the PD-1/PD-L1 pathway, suggesting that vaccine-primed PDAC patients may be better candidates than vaccine–naïve patients for immune checkpoint and other immunomodulatory therapies.

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Choledochal Cysts: Presentation, Clinical Differentiation, and Management

et al. 2014

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Kevin C. Soares

STING agonist formulated cancer vaccines can cure established tumors resistant to PD-1 blockade

Immunotherapy Converts Nonimmunogenic Pancreatic Tumors into Immunogenic Foci of Immune Regulation

Choledochal Cysts: Presentation, Clinical Differentiation, and Management

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