Project description:Recombinant cytokines were the first modern immunotherapies to produce durable cures in metastatic cancer, but their application has been hampered by only modest efficacy and limited tolerability. Next-generation cytokine therapies are therefore under development to overcome the biological limitations of native cytokines. By analyzing single-cell transcriptomic data from tumor infiltrating lymphocytes (TIL), we found that components of the Interleukin-18 (IL-18) pathway are upregulated on activated and dysfunctional TIL, suggesting that IL-18 therapy could potentially restore anti-tumor immunity by stimulating these key effector cells. However, recombinant IL-18 therapy has consistently failed to demonstrate anti-tumor efficacy in clinical trials. Here we show that the secreted, high-affinity decoy receptor IL-18BP is frequently upregulated in the tumor microenvironment of diverse human cancers and syngeneic murine tumor models. Using directed evolution, we engineered a ‘decoy-resistant’ IL-18 (DR-18), which maintains signaling potential, but is impervious to binding and inhibition by IL-18BP. In contrast to wild-type IL-18, DR-18 exhibits potent anti-tumor efficacy as monotherapy and in combination with anti-PD-1 checkpoint immunotherapy in multiple tumor models. Mechanistically, DR-18 drives the development of poly-functional effector CD8+ T cells, decreases the prevalence of exhausted CD8+ T cells expressing the transcription factor TOX, and expands the pool of TCF1+ precursor CD8+ T cells. DR-18 also enhances NK cell activity and maturation to effectively treat anti-PD-1 resistant tumors that have lost MHC class I surface expression. Together, these results highlight the IL-18 pathway as a powerful target for immunotherapeutic intervention and implicate the secreted immune checkpoint IL-18BP as an obstacle to effective IL-18 immunotherapy.

Project description:Interleukin-27 (IL-27) has shown promise in halting tumor growth and mediating tumor regression in several models, including prostate cancer. We describe our findings on the effects of IL-27 on the gene expression changes of TC2R prostate adenocarcinoma cells. We utilized RNAseq to assess profile differences between empty vector control, vector delivering IL-27 modified at its C-terminus with a non-specific peptide, and IL-27 modified at the C-terminus with a peptide targeting the IL-6-Rα. The targeted IL-27 had higher bioactivity and activity in vivo in a recent study by our group, but the mechanisms underlying this effect had not been characterized in detail at the gene expression level on tumor cells. In the present work, we sought to examine potential mechanisms for targeted IL-27 enhanced activity directly on tumor cells. The targeted IL-27 appeared to modulate several changes that would be consistent with an anti-tumor effect, including upregulation in the Interferon (IFN) and Interferon regulatory factor (IRF), oxidative phosphorylation, Janus kinase/Signal transducers and activators of transcription (JAK/STAT), and eukaryotic initiation factor 2 (EIF2) signaling. Of these signaling changes predicted by ingenuity pathway analyses (IPA), the novel form also with the highest significance (-log(Benjamini–Hochberg (B-H))p-value) was the EIF2 signaling upregulation. We validated this predicted change by assaying for eukaryotic initiation factor 2 alpha (eIF2α), or phosphorylated eIF2α (p-eIF2α), and caspase-3 levels. We detected an increase in the phosphorylated form of eIF2α and in the cleaved caspase-3 fraction, indicating that the EIF2 signaling pathway was upregulated in these prostate tumor cells following targeted IL-27 gene delivery. This approach of targeting cytokines to enhance their activity against cancer cells is a novel approach to help augment IL-27′s bioactivity and efficacy against prostate tumors and could be extended to other conditions where it could help interfere with the EIF2α pathway and promote caspase-3 activation.

Project description:The cytokine interleukin-18 (IL-18) has immunostimulatory effects but is negatively regulated by a secreted binding protein, IL-18BP, that limits IL-18’s anti-cancer efficacy. A “decoy-resistant” form of IL-18 (DR-18), that avoids sequestration by IL-18BP while maintaining its immunostimulatory potential has recently been developed. Here, we investigate the therapeutic potential of DR-18 in renal cell carcinoma (RCC). We used immunocompetent RCC murine models to assess the efficacy of DR-18 in combination with single- and dual-agent anti-PD-1 and anti-CTLA-4. In contrast to preclinical models of other tumor types, in RCC models DR-18 enhanced the activity of anti-CTLA-4 but not anti-PD-1 treatment. This activity correlated with intra-tumoral enrichment and clonal expansion of effector CD8+ T cells, decreased regulatory T cell levels, and enrichment of pro-inflammatory, anti-tumor myeloid cell populations, as assessed by scRNA- and scTCR-seq.

Project description:Treatment of TRAMP-C2-Ras tumors with IL-27 and IL-18 therapies

Project description:Recombinant cytokines have limited anti-cancer efficacy mostly due to narrow therapeutic window and systemic adverse effects. IL-18 is an inflammasome induced proinflammatory cytokine that enhances T and NK cell activity and stimulates IFNg production. The activity of IL-18 is naturally blocked by a high affinity endogenous binding protein (IL-18BP). IL-18BP is induced in the tumor microenvironment (TME) in response to IFNg upregulation in a negative feedback mechanism. In this study we found that IL-18 is upregulated in the TME compared to the periphery across multiple human tumors and most of it is bound to IL-18BP. Bound IL-18 levels were largely above the amount required for T cell activation in vitro, implying that releasing IL-18 in the TME could lead to potent T cell immune activation. To restore the activity of endogenous IL-18 we generated COM503, a high affinity anti-IL-18BP antibody (Ab), that blocks the IL-18BP:IL-18 interaction and displaces pre-complexed IL-18 to enhance T cell and NK cell activation. In vivo, administration of a surrogate anti-IL-18BP Ab, either alone or in combination with anti-PD-L1 Ab, resulted in significant tumor growth inhibition and increased survival across multiple mouse tumor models. Moreover, anti-IL-18BP Ab induced pronounced TME-localized immune modulation including an increase in polyfunctional non-exhausted T and NK cell numbers and activation. In contrast, no increase in inflammatory cytokines and lymphocyte numbers or activation state was observed in serum and spleen. Taken together, blocking IL-18BP using an Ab is a promising novel approach to harness cytokine biology for the treatment of cancer.

Project description:Prostate cancer is the second leading cause of cancer-related death among American men. Prostate tumor cells exhibit significant tropism for the bone and once metastasis occurs, survival rates fall significantly. Current treatment options are not curative and focus on symptom management. Immunotherapies are rapidly emerging as a possible therapeutic option for a variety of cancers including prostate cancer, however, variable patient response remains a concern. Chemotherapies, like cabozantinib, can have immune-priming effects which sensitize tumors to immunotherapies. Additionally, lower doses of chemotherapy can be used in this context which can reduce patient side effects. We hypothesized that a combination of chemotherapy (cabozantinib) and immunotherapy (Interleukin-27 (IL-27)) could be used to treat bone-metastatic prostate cancer and exert pro-osteogenic effects. IL-27 is a multi-functional cytokine, which promotes immune cell recruitment to tumors, while also promoting bone repair. To test this hypothesis, in vivo experiments were performed where syngeneic C57BL/6J mice were implanted intratibially with TRAMP-C2ras-Luc cells that are able to form tumors in bone. Immunotherapy was administered in the form of intramuscular gene therapy, delivering plasmid DNA encoding a reporter gene (Lucia), and/or a therapeutic gene (IL-27). Sonoporation was used to aid gene delivery. Following immunotherapy, the animals received either cabozantinib or a vehicle control by oral gavage. Bioluminescence imaging was used to monitor tumor size over time. Combinatorial therapy inhibited tumor growth and improved survival. Further, RNA sequencing was used to investigate the mechanisms involved. Microcomputed tomography and differentiation assays indicated that the combination therapy improved bone quality by enhancing osteoblast differentiation and inhibiting osteoclast differentiation. Our conclusion is that a chemo-immunotherapy approach such as the one examined in this work has potential to emerge as a novel therapeutic strategy for treating bone-metastatic prostate cancer. This approach will enable a significant reduction in chemotherapy-associated toxicity, enhance sensitivity to immunotherapy, and improve bone quality.

Project description:Metabolic dysfunction-associated steatohepatitis (MASH) is a chronic liver disease associated with hepatic inflammation and fibrosis. Inflammasome-mediated IL-18 signaling is enhanced under MASH condition. IL-18 binding protein (IL-18BP) is a soluble protein that can block IL-18 actions and therapeutic potential of IL-18BP for MASH-induced fibrosis is largely unknown. We newly developed a human IL-18BP biologics (APB-R3) and injected it to mice to evaluate its pharmacologic efficacy. APB-R3 strikingly abolished hepatic fibrosis and reduced collagen markers. We further investigated whether APB-R3 could inhibit fibrotic activation of hepatic stellate cells (HSCs). This study proposes that abrogation of IL-18 signaling by boosting IL-18BP can strongly inhibit the development of MASH-induced fibrosis and our engineered IL-18BP biologics can become promising therapeutic candidate for curing MASH.

Project description:RNA squencing of human NK cells activated with IL-15, a combination of IL-12, IL-15, and IL-18, or with a trimeric fusion protein 18/12/TxM

Project description:Metabolic dysfunction-associated steatohepatitis (MASH) is a chronic liver disease associated with hepatic inflammation and fibrosis. Inflammasome-mediated IL-18 signaling is enhanced under MASH condition. IL-18 binding protein (IL-18BP) is a soluble protein that can block IL-18 actions and therapeutic potential of IL-18BP for MASH-induced fibrosis is largely unknown. We newly developed a human IL-18BP biologics (APB-R3) and injected it to mice to evaluate its pharmacologic efficacy. APB-R3 strikingly abolished hepatic fibrosis and reduced collagen markers. We further investigated whether APB-R3 could inhibit fibrotic activation of hepatic stellate cells (HSCs). This study proposes that abrogation of IL-18 signaling by boosting IL-18BP can strongly inhibit the development of MASH-induced fibrosis and our engineered IL-18BP biologics can become promising therapeutic candidate for curing MASH.

Project description:Inhibitory receptors (IR) are a diverse group of cell surface molecules that modulate T cell activation, but there are gaps in our knowledge of the cell extrinsic factors that regulate their expression. The present study found that in vivo overexpression of IL-27 led to increased T cell expression of PD-L1, LAG-3, TIGIT, and TIM-3. In vitro, TCR stimulation alone promoted expression of multiple IRs, while IL-27 alone induced expression of PD-L1. However, the combination of intermediate TCR stimulation and IL-27 resulted in synergistic induction of LAG-3, CTLA-4, and TIGIT. In vivo, infection with Toxoplasma gondii resulted in parasitespecific effector T cells that expressed high levels of IR and at local sites of infection where IL-27 production was highest, IL-27 was required for maximal effector cell expression of PD-L1, LAG-3, CTLA-4 and TIGIT. Together, these results affirm the critical role of TCR signals in the induction of IR expression, but find that during infection, IL-27 provides a signal that promotes T cell expression of inhibitory receptors.