Ashley J Wong scite author profile

Ashley J Wong

4Publications

5Citation Statements Received

48Citation Statements Given

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Affiliations

Vividion Therapeutics (United States), Inovio Pharmaceuticals (United States), California State University, Long Beach

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Adjuvant Screen Identifies Synthetic DNA-Encoding Flt3L and CD80 Immunotherapeutics as Candidates for Enhancing Anti-tumor T Cell Responses

et al. 2020

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Overcoming tolerance to tumor-associated antigens remains a hurdle for cancer vaccine-based immunotherapy. A strategy to enhance the anti-tumor immune response is the inclusion of adjuvants to cancer vaccine protocols. In this report, we generated and systematically screened over twenty gene-based molecular adjuvants composed of cytokines, chemokines, and T cell co-stimulators for the ability to increase anti-tumor antigen T cell immunity. We identified several robust adjuvants whose addition to vaccine formulations resulted in enhanced T cell responses targeting the cancer antigens STEAP1 and TERT. We further characterized direct T cell stimulation through CD80-Fc and indirect T cell targeting via the dendritic cell activator Flt3L-Fc. Mechanistically, intramuscular delivery of Flt3L-Fc into mice was associated with a significant increase in infiltration of dendritic cells at the site of administration and trafficking of activated dendritic cells to the draining lymph node. Gene expression analysis of the muscle tissue confirmed a significant up-regulation in genes associated with dendritic cell signaling. Addition of CD80-Fc to STEAP1 vaccine formulation mimicked the engagement provided by DCs and increased T cell responses to STEAP1 by 8-fold, significantly increasing the frequency of antigen-specific cells expressing IFNγ, TNFα, and CD107a for both CD8 + and CD4 + T cells. CD80-Fc enhanced T cell responses to multiple tumor-associated antigens including Survivin and HPV, indicating its potential as a universal adjuvant for cancer vaccines. Together, the results of our study highlight the adjuvanting effect of T cell engagement either directly, CD80-Fc, or indirectly, Flt3L-Fc, for cancer vaccines.

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Author Correction: Selective inhibitors of JAK1 targeting an isoform-restricted allosteric cysteine

et al. 2022

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Adjuvant screen identifies DC modifying growth factor Flt3 ligand as candidate for prostate cancer DNA vaccine

Malo

Wong

Thorne

et al. 2019

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Prostate cancer is the most common type of cancer in men. Immunotherapies such as Sipuleucel-T have shown that stimulating the immune system to target the prostate is a viable therapeutic option. Inovio is a clinical-stage biotechnology company that uses DNA vaccines as a novel immunotherapy strategy. An advantage to plasmid DNA vaccine therapy is the ability to encode adjuvants within the vaccine in order to increase immunogenicity and efficacy. We conducted an adjuvant screen in BALB/c mice with 25 candidate plasmid encoded genetic adjuvants in combination with the prostate cancer specific tumor-associated antigen STEAP1. Antigen-specific T cell responses were measured by IFNg ELISpot. The screen revealed that the addition of a plasmid encoding dendritic cell (DC)-activating Fms-like tyrosine kinase 3 ligand (Flt3L) fused to an Fc domain, significantly increased antigen-specific T cells (p<0.001, 2.8 fold). Mice treated with Flt3L-Fc had an enhanced immune response to STEAP1 vaccination as early as 7 days post dose 1 (p<0.01, 2.4 fold), which developed into an enhanced memory response measured 12 weeks later (p<0.001, 8.5 fold). Flow cytometry showed that Flt3L-Fc increased DC populations at the site of injection and at the draining lymph node 8 days following the initial vaccination. DCs are considered the most potent antigen-presenting cells in the immune system and DCs at the tumor site have been shown to be critical for T cell immunity. Our data shows that enhancing DC populations and function through the use of a genetic adjuvant can enhance the immunogenicity of a DNA cancer vaccine. Future studies will assess the efficacy of Flt3L-Fc in combination with STEAP1 in a mouse tumor model.

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Investigating modulation of inflammation in atherosclerosis by complement protein C1q

Pardo

Flores

Wong

et al. 2017

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Atherosclerosis is a chronic inflammatory disease characterized by the accumulation of fatty streaks within arterial walls. In hyperlipidemic conditions, cholesterol accumulates in macrophages disrupting cholesterol trafficking and leading to an inflammatory environment. C1q plays a dual role in atherosclerosis. Activation of complement by C1q exacerbates disease by release of pro-inflammatory activation fragments C3a and C5a. However, we have shown in vitro that C1q has numerous protective roles in atherosclerosis such as improving macrophage cholesterol ingestion and efflux, and polarizing macrophages towards a resolving, anti-inflammatory phenotype. Here we investigate if C1q programs similar macrophage inflammatory responses in vivo. We hypothesize that C1q polarizes macrophages to a protective phenotype in the early stages of atherosclerosis by increasing anti-inflammatory cytokines and decreasing pro-inflammatory cytokines, leading to a reduction in disease markers such as cholesterol and triglyceride levels and atherosclerotic lesion size. To investigate, atherosclerosis model, LDLr−/−, mice that are C1q sufficient or deficient were fed a high fat Western diet for 12 weeks. Changes in plasma cyto/chemokine levels are measured by luminex multiplex assay. Cholesterol and triglyceride levels are measured by colorimetric assay. Atherosclerotic lesions are measured in H&E stained aortic sinus. Preliminary data suggests that C1q modulates disease markers as predicted. By understanding the role of C1q in atherosclerosis it may be possible to design improved treatment strategies.

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Ashley J Wong

Adjuvant Screen Identifies Synthetic DNA-Encoding Flt3L and CD80 Immunotherapeutics as Candidates for Enhancing Anti-tumor T Cell Responses

Author Correction: Selective inhibitors of JAK1 targeting an isoform-restricted allosteric cysteine

Adjuvant screen identifies DC modifying growth factor Flt3 ligand as candidate for prostate cancer DNA vaccine

Investigating modulation of inflammation in atherosclerosis by complement protein C1q

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