IL-7 coupled with IL-12 increases intratumoral T cell clonality, leading to complete regression of non-immunogenic tumors.

Immune checkpoint inhibitors against PD-1, PD-L1 and CTLA-4 have altered the treatment paradigm for various types of cancers in the past decade. However, they offer clinical benefits to only a subset of patients. Evaluation and identification of an appropriate therapeutic approach to improve intratumoral immune status are needed for better treatment outcomes. We previously demonstrated that intratumoral expression of IL-7 and IL-12 increased tumor-infiltrating lymphocytes in poorly immunogenic tumors, resulting in a higher tumor regression rate than IL-12 alone. However, the mechanism underlying the difference in efficacy with and without IL-7 remains unclear. Here, we identified a previously unknown effect of IL-7 on the T cell receptor (TCR) repertoire of intratumoral CD8+ T cells, which is induced in the presence of IL-12. While IL-7 alone increased the diversity of intratumoral CD8+ T cells, IL-7 with IL-12 increased a limited number of high-frequency clones, conversely augmenting IL-12 function to increase the clonality. The proportion of mice with multiple high-frequency clones in tumors correlated with that achieving complete tumor regression in efficacy studies. These findings provide a scientific rationale for combining IL-7 and IL-12 in anticancer immunotherapy and unveil a novel IL-7 function on intratumoral TCR repertoire.

Oncolytic vaccinia virus induces a novel phenotype of CD8+ effector T cells characterized by high ICOS expression.

Characterization of the intratumoral immune status is important for developing immunotherapies and evaluating their antitumor effectiveness. CD8+ T cells are one of the most important cell types that directly and indirectly contribute to antitumor efficacy by releasing cytolytic molecules and inflammatory cytokines in the tumor microenvironment. Previously, we engineered a tumor-selective oncolytic vaccinia virus that encodes interleukin-7 (IL-7) and IL-12 and demonstrated its usefulness as an agent for in situ vaccination against tumors, with data showing that antitumor efficacy was reliant upon CD8+ T cells recruited by viral treatment. Here, we investigated the phenotypic changes in intratumoral CD8+ T cells caused by this oncolytic virus and found increased expression of inducible co-stimulator (ICOS) in PD-1-CD8+ T cells. Unlike previously reported ICOS+CD8+ T cells, a subset of ICOS+PD-1-CD8+ T cells showed effector function characterized by granzyme B expression. ICOS expression was induced by the backbone virus, which did not encode any immune transgenes and was independent of upregulation of the type I interferon pathway. Not only did we identify a novel effector cell subset characterized by ICOS expression, but our findings also shed light on a potential unknown aspect of the mechanism of oncolytic vaccinia virotherapy.

Intratumoral expression of IL-7 and IL-12 using an oncolytic virus increases systemic sensitivity to immune checkpoint blockade.

The immune status of the tumor microenvironment is a key indicator in determining the antitumor effectiveness of immunotherapies. Data support the role of activation and expansion of tumor-infiltrating lymphocytes (TILs) in increasing the benefit of immunotherapies in patients with solid tumors. We found that intratumoral injection of a tumor-selective oncolytic vaccinia virus encoding interleukin-7 (IL-7) and IL-12 into tumor-bearing immunocompetent mice activated the inflammatory immune status of previously poorly immunogenic tumors and resulted in complete tumor regression, even in distant tumor deposits. Mice achieving complete tumor regression resisted rechallenge with the same tumor cells, suggesting establishment of long-term tumor-specific immune memory. Combining this virotherapy with anti-programmed cell death-1 (PD-1) or anti-cytotoxic T lymphocyte antigen 4 (CTLA4) antibody further increased the antitumor activity as compared to virotherapy alone, in tumor models unresponsive to either of the checkpoint inhibitor monotherapies. These findings suggest that administration of an oncolytic vaccinia virus carrying genes encoding for IL-7 and IL-12 has antitumor activity in both directly injected and distant noninjected tumors through immune status changes rendering tumors sensitive to immune checkpoint blockade. The benefit of intratumoral IL-7 and IL-12 expression was also observed in humanized mice bearing human cancer cells. These data support further investigation in patients with non-inflamed solid tumors.

Discovery of 2,4-diamino-5-cyanopyrimidine derivatives as protein kinase C theta inhibitors with mitigated time-dependent drug-drug interactions.

Protein kinase C theta (PKCθ) plays a critical role in T cell signaling and has therapeutic potential for T cell-mediated diseases such as transplant rejection and rheumatoid arthritis. PKCθ inhibitors have emerged as effective immunomodulative agents for the prevention of transplant rejection. We previously reported that the 2,4-diamino-5-cyanopyrimidine derivative 2 was a potent PKCθ inhibitor; however, it exhibited CYP3A4 time-dependent inhibition (TDI). Here, we report the structural modification of compound 2 into 34 focusing on mitigating CYP3A4 TDI. Compound 34 exhibited potent in vitro activity with mitigated CYP3A4 TDI and efficacy in vivo transplant model.

A novel 2,4-diaminopyrimidine derivative as selective inhibitor of protein kinase C theta prevents allograft rejection in a rat heart transplant model.

Protein kinase C theta (PKCθ) plays a critical role in T cell signaling and is an attractive target for the treatment of T cell-mediated diseases such as transplant rejection and autoimmune disease. To identify PKCθ inhibitors, we focused on the 2,6-diamino-3-carbamoyl-5-cyanopyrazine derivative 2, which exhibited moderate PKCθ inhibitory activity. Optimization of 2 identified the 2,4-diamino-5-cyanopyrimidine derivative 16c, which exhibited potent PKCθ inhibitory activity and showed good selectivity against other PKC isozymes. Compound 16c prolonged graft survival in an in vivo rat heterotopic cardiac transplant model.

Effect of novel PKCθ selective inhibitor AS2521780 on acute rejection in rat and non-human primate models of transplantation.

Selective inhibition of protein kinase Cθ (PKCθ) may be useful in inducing T cell-specific immunosuppression with a reduced rate of side effects. To our knowledge, however, no reports have been published regarding the selective inhibition of PKCθ by small-molecule compounds in animal models of allograft rejection. Here, we investigated the effect of the newly synthesized PKCθ selective inhibitor AS2521780 in mono- and combination therapies on acute rejection in ACI-to-Lewis rat cardiac and non-human primate (NHP) renal transplantation models. In the rat cardiac transplantation model, AS2521780 significantly prolonged graft survival to 14days at 10mg/kg twice daily (b.i.d.) and to 20days at 30mg/kg b.i.d. In contrast, acute rejection occurred in all recipients in the non-treated group by Days 5 or 6 post-transplantation. Significant improvements (P<0.001) in graft survival were observed following treatment with a combination of AS2521780 at 3mg/kg b.i.d. and a suboptimal dose of tacrolimus (0.02mg/kg) or mycophenolate mofetil (15mg/kg). In the NHP renal transplantation model, AS2521780 at 3mg/kg b.i.d. and tacrolimus at 1mg/kg (suboptimal dose) significantly improved graft survival compared to tacrolimus alone (P<0.05). The present study of AS2521780 in rat cardiac and NHP renal transplantation models demonstrates the potential of PKCθ as a novel drug target for organ transplantation. As AS2521780 was well tolerated and the dose of tacrolimus or mycophenolate mofetil can be reduced when used in combination with this drug, immunosuppressive regimens containing selective inhibitors of PKCθ might have good safety profiles.

Optimization of 2,4-diamino-5-fluoropyrimidine derivatives as protein kinase C theta inhibitors with mitigated time-dependent drug-drug interactions and P-gp liability.

Protein kinase C theta (PKCθ) plays a critical role in T cell signaling and has therapeutic potential for T cell-mediated diseases such as transplant rejection and rheumatoid arthritis. Here, a series of 2,4-diamino-5-fluoropyrimidine derivatives were prepared and evaluated for their inhibition of PKCθ. Of these compounds, 14f was found to exhibit potent PKCθ inhibitory activity and significantly weak CYP3A4 time-dependent inhibition (TDI) and P-glycoprotein (P-gp) liability.

Effect of AS2521780, a novel PKCθ selective inhibitor, on T cell-mediated immunity.

T cell-mediated immunity is central to the pathogenesis of autoimmune diseases, and is a target in the development of alternative therapeutic strategies with reduced adverse effects on other cell types and organs. Protein kinase C (PKC) is a family of serine/threonine kinases, with knockout of the PKCθ isoform in mice resulting in defective T cell activation. However, the effects of selective inhibition of PKCθ by small-molecule compounds on T cell signaling are still unknown. Here, we evaluated the effect of the novel PKCθ inhibitor AS2521780 on T cell activation and joint inflammation in a rat model of arthritis. AS2521780 exerted potent inhibition of recombinant human PKCθ enzyme activity (IC50=0.48 nM), which was more than 30-fold higher than that of other PKC isoforms. Further, AS2521780 exerted little or no inhibition on other protein kinases. AS2521780 suppressed CD3/CD28-induced Interleukin-2 (IL-2) gene transcription in Jurkat T cells and proliferation of human primary T cells. AS2521780 also suppressed concanavalin A-induced cytokine production by rat splenocytes and monkey peripheral blood mononuclear cells with similar potency. Moreover, AS2521780 significantly reduced paw swelling in a dose-dependent manner in a rat model of adjuvant-induced arthritis. These results indicate that PKCθ is an attractive drug target and AS2521780 is a potential immunosuppressant for T cell-mediated autoimmune diseases.

Inhibition of antigen-induced airway inflammation and hyperresponsiveness in guinea pigs by a selective antagonist of "chemoattractant receptor homologous molecule expressed on Th2 cells" (CRTH2).

Chemoattractant receptor homologous molecule expressed on T helper type 2 cells (CRTH2) is a PGD2 receptor found on eosinophils, basophils, and Th2 type T cells which exhibits chemotaxis and functions in activation cascades. However, while a number of CRTH2 antagonists, including ramatroban, are known to exert activity in certain animal models, activity in a guinea pig model of EA-induced airway hyperresponsiveness has not been demonstrated. The newly developed CRTH2 antagonist ASP5642 has shown antagonistic activity against human and guinea pig CRTH2 in previous studies and has also been found effective in treating guinea pig models of airway inflammation and airway hyperresponsiveness. While previous studies have used animals such as rats and mice to evaluate CRTH2 antagonist effects, ours is the first attempt to evaluate CRTH2 function in a guinea pig asthma model, which may prove useful in evaluating the compound's effects in humans, given the comparable airway function between the two species taken together, these data from the present study strongly suggest the utility of ASP5642 in investigating the role of CRTH2 in inflammatory responses and as a drug treatment for human asthma.

Leber's hereditary optic neuropathy with 14484 mutation in Central Java, Indonesia.

Leber's hereditary optic neuropathy (LHON) is a maternally inherited late-onset form of blindness characterized by acute or subacute bilateral retinal degradation resulting in a permanent loss of central vision. G11778A, C3460A, and T14484C mutations on mitochondrial DNA (mtDNA) are specific for LHON and account for most, but not all, worldwide LHON cases. A six-generation Indonesian LHON family with the T14484C mutation was analyzed. Polymerase chain reaction/restriction fragment length polymorphism analysis showed that all of the maternal lineages had the T14484C mutation in a homoplasmic form. Penetrance of the disease (33.3%) and male predominance (3:1) was similar to other worldwide LHON with the T14484C mutation. The incidence of offspring born to affected mothers was no different from that of unaffected mothers, and the age distribution of cases was no higher than that of asymptomatic carriers. Eight secondary mutations were sought but not detected. The patients of this family belonged to haplogroup M. These findings support the idea that the mtDNA backgrounds involved in the expression of LHON mutations in southeast Asians are different from those of Europeans.