Jantipa Jobsri scite author profile

Induction of potent antibody is the goal of many vaccines targeted against infections or cancer. Modern vaccine designs that use virus-like particles (VLP) have shown efficacy for prophylactic vaccination against virus-associated cancer in the clinic. Here we used plant viral particles (PVP), which are structurally analogous to VLP, coupled to a weak idiotypic (Id) tumour antigen, as a conjugate vaccine to induce antibody against a murine B-cell malignancy. The Id-PVP vaccine incorporates a natural adjuvant, the viral ssRNA, which acts via TLR7. It induced potent protective anti-Id antibody responses in an in vivo mouse model, superior to the “gold standard” Id vaccine, with prevalence of the IgG2a isotype. Combination with alum further increased antibody levels and maintained the IgG2a bias. Engagement of TLR7 in vivo was followed by secretion of IFN-α by plasmacytoid dendritic cells and by activation of splenic CD11chi conventional dendritic cells. The latter was apparent from up-regulation of co-stimulatory molecules and from secretion of a wide range of inflammatory cytokines and chemokines including the Th1-governing cytokine IL-12, in keeping with the IgG2a antibody isotype distribution. PVP conjugates are a novel cancer vaccine design, offering an attractive molecular form, similar to VLP, and providing T-cell help. In contrast to VLP, they also incorporate a safe “in-built” ssRNA adjuvant.

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Linked CD4 T Cell Help: Broadening Immune Attack Against Cancer by Vaccination

Savelyeva

Allen

Chotprakaikiat

et al. 2016

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In the last decade, immunotherapy with monoclonal antibodies targeting immunological check points has become a breakthrough therapeutic modality for solid cancers. However, only up to 50 % of patients benefit from this powerful approach. For others vaccination might provide a plausible addition or alternative. For induction of effective anticancer immunity CD4+ T cell help is required, which is often difficult to induce to self cancer targets because of tolerogenic mechanisms. Our approach for cancer vaccines has been to incorporate into the vaccine design sequences able to activate foreign T cell help, through genetically linking cancer targets to microbial sequences (King et al. in Nat Med 4(11):1281-1286, 1998; Savelyeva et al. in Nat Biotechnol 19(8):760-764, 2001). This harnesses the non-tolerized CD4 T cell repertoire available in patients to help induction of effective immunity against fused cancer antigens. Multiple immune effector mechanisms including antibody, CD8+ T cells as well as CD4 effector T cells can be activated using this strategy. Delivery via DNA vaccines has already indicated clinical efficacy. The same principle of linked T cell help has now been transferred to other novel vaccine modalities to further potentiate immunity against cancer targets.

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A plant-expressed conjugate vaccine breaks CD4⁺ tolerance and induces potent immunity against metastatic Her2⁺ breast cancer

Chotprakaikiat

Allen

Minh³

et al. 2016

OncoImmunology

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Passive antibody therapy for cancer is an effective but costly treatment modality. Induction of therapeutically potent anticancer antibodies by active vaccination is an attractive alternative but has proven challenging in cancer due to tolerogenic pressure in patients. Here, we used the clinically relevant cancer target Her2, known to be susceptible to targeting by antibody therapy, to demonstrate how potent antibody can be induced by vaccination. A novel 44kD Her2 protein fragment was generated and found to be highly effective at inducing anti-Her2 antibody including trastuzumab-like reactivities. In the tolerant and spontaneous BALB-neuT mouse model of metastatic breast cancer this Her2-targeting vaccine was only effective if the fragment was conjugated to a foreign immunogenic carrier; Fragment C of tetanus toxin. Only the conjugate vaccine induced high affinity anti-Her2 antibody of multiple isotypes and suppressed tumor development. The magnitude of CD4+ T-cell help and breadth of cytokines secreted by the CD4+ T helper (Th) cells induced to the foreign antigen was critical. We used a highly efficient plant-based bio-manufacturing process for protein antigens, magnICON, for vaccine expression, to underpin feasibility of future clinical testing. Hence, our novel Her2-targeting conjugate vaccine combines preclinical efficacy with clinical deliverability, thus setting the scene for therapeutic testing.

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Abstract B139: Plant viral particle vaccine induces a potent antitumor response through induction of antigen-specific T-cells and overcoming an immunosuppressive tumor microenvironment

Wang

Allen

et al. 2019

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In order to develop an effective vaccination strategy for cancer, it is necessary to induce robust T-cell responses and to overcome the immunosuppressive tumor microenvironment (TME). To induce anticancer immunity, we focused on a plant viral particle (PVP) that contains-single strand RNA (ssRNA) as a flexible and economical platform to deliver cancer antigens. Initially using PVP loaded with SIINFEKL, we demonstrated the induction of a rapid CD8 T-cell response leading to a significant therapeutic effect in the B16 tumor model. The induction of high levels of CD8 T-cells was also achieved when clinically relevant cancer antigens were used with lysis of human cancer cells expressing these antigens. Further, PVP loaded with whole protein antigen induced CD8 and CD4 T-cell responses against the epitopes delivered through the whole antigen and these cleared established tumors. The mechanisms behind the high immunogenicity of the PVP vaccine revealed that this ssRNA containing vaccine activated the immune mechanisms closely resembling the natural antiviral defence. In a murine model, the immune induction was through the activation of TLR7, leading to release of type I IFN by plasmacytoid dendritic cells and activation of conventional DCs (cDCs) followed with the priming of Th1 immunity. These findings were further supported by experiments using human monocytes derived DCs (moDCs) stimulated in vitro with PVP. The stimulated moDCs released Th1-polarizing cytokines and chemokines, and upregulated CD40 and B7 family surface molecules. Further investigation of the TME demonstrated that cDCs, MHC-II high tumor associated macrophages (TAMs) and tumor-infiltrating neutrophils were recruited into the tumor bed 24 hours after vaccination. While MHC-II low TAMs and myeloid-derived suppressor cells were down-regulated in response to vaccination. This was followed by the increase of tumor-infiltrating lymphocytes (TILs) specific for endogenous tumor antigens. In conclusion, the PVP vaccine is an effective platform to induce T-cells specific to the delivered cancer antigens, and furthermore benefit from its ability to convert an immunosuppressive TME towards an immunostimulatory environment, facilitating the endogenous T-cell epitopes spread. Citation Format: Chuan Wang, Yidao Wang, Alex J. Allen, Jantipa Jobsri, Gareth J. Thomas, Christian H. Ottensmeier, Natalia Savelyeva. Plant viral particle vaccine induces a potent antitumor response through induction of antigen-specific T-cells and overcoming an immunosuppressive tumor microenvironment [abstract]. In: Proceedings of the Fourth CRI-CIMT-EATI-AACR International Cancer Immunotherapy Conference: Translating Science into Survival; Sept 30-Oct 3, 2018; New York, NY. Philadelphia (PA): AACR; Cancer Immunol Res 2019;7(2 Suppl):Abstract nr B139.

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Jantipa Jobsri

Plant Virus Particles Carrying Tumour Antigen Activate TLR7 and Induce High Levels of Protective Antibody

Linked CD4 T Cell Help: Broadening Immune Attack Against Cancer by Vaccination

A plant-expressed conjugate vaccine breaks CD4⁺ tolerance and induces potent immunity against metastatic Her2⁺ breast cancer

Abstract B139: Plant viral particle vaccine induces a potent antitumor response through induction of antigen-specific T-cells and overcoming an immunosuppressive tumor microenvironment

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Jantipa Jobsri

Plant Virus Particles Carrying Tumour Antigen Activate TLR7 and Induce High Levels of Protective Antibody

Linked CD4 T Cell Help: Broadening Immune Attack Against Cancer by Vaccination

A plant-expressed conjugate vaccine breaks CD4+ tolerance and induces potent immunity against metastatic Her2+ breast cancer

Abstract B139: Plant viral particle vaccine induces a potent antitumor response through induction of antigen-specific T-cells and overcoming an immunosuppressive tumor microenvironment

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A plant-expressed conjugate vaccine breaks CD4⁺ tolerance and induces potent immunity against metastatic Her2⁺ breast cancer