Norma Bradley scite author profile

Significant efforts are being devoted toward the development of effective therapeutic vaccines against cancer. Specifically, well-characterized subunit vaccines, which are designed to generate antitumor cytotoxic CD8 T-cell responses. Because CD4 T cells participate at various stages of CD8 T-cell responses, it is important to study the role of CD4 T cells in the induction and persistence of antitumor CD8 T-cell responses by these vaccines. Recent evidence points to the requirement of CD4 T cells for the long-term persistence of memory CD8 T cells, which in the case of cancer immunotherapy would be critical for the prevention of tumor recurrences. The purpose of the present study was to assess whether CD4 T cells are necessary for the generation and maintenance of antigen-specific CD8 T cells induced by subunit (peptide or DNA) vaccines. We have used a vaccination strategy that combines synthetic peptides representing CD8 T-cell epitopes, a costimulatory anti-CD40 antibody and a Toll-like receptor agonist (TriVax) to generate large numbers of antigen-specific CD8 T-cell responses. Our results show that the rate of decline (clonal contraction) of the antigen-specific CD8 T cells and their functional state is not affected by the presence or absence of CD4 T cells throughout the immune response generated by TriVax. We believe that these results bear importance for the design of effective vaccination strategies against cancer. [Cancer Res 2008;68(23):9892-9]

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Prostaglandin E2 Induces miR675-5p to Promote Colorectal Tumor Metastasis via Modulation of p53 Expression

Cen

Lang

et al. 2020

Gastroenterology

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Optimized DNA vaccines to specifically induce therapeutic CD8 T cell responses against autochthonous breast tumors

Cho

Niu

Bradley

et al. 2008

Cancer Immunol Immunother

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Vaccines capable of inducing CD8 T cell responses to antigens expressed by tumor cells are considered as attractive choices for the treatment and prevention of malignant diseases. Our group has previously reported that immunization with synthetic peptide corresponding to a CD8 T cell epitope derived from the rat neu oncogene administered together with a Toll-like receptor agonist as adjuvant, induced immune responses that translated into prophylactic and therapeutic benefit against autochthonous tumors in an animal model of breast cancer (BALB-neuT mice). DNA-based vaccines offer some advantages over peptide vaccines, such as the possibility of including multiple CD8 T cell epitopes in a single construct. Thus, we have evaluated the use of DNA vaccination for its ability to generate effective CD8 T cell responses against breast tumors expressing the rat neu oncogene. The results show that as with peptide vaccination, DNA-based vaccines were very effective in stimulating tumor-reactive CD8 T cell responses. Moreover, vaccination with modified DNA plasmids resulted in significant anti-tumor effects that were mediated by CD8 T cells without the requirement of generating antibodies to the product of rat neu. These results bear importance for the design of DNA vaccines for the treatment and prevention of cancer.

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A novel platform to produce human monoclonal antibodies

Duvall

Bradley

Fiorini

2011

mAbs

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A new technology has been developed that allows human antibodies to be quickly generated against virtually any antigen. Using a novel process, naïve human B cells are isolated from tonsil tissue and transformed with efficiency up to 85%, thus utilizing a large portion of the human VDJ/VJ repertoire. Through ex vivo stimulation, the B cells class switch and may undergo somatic hypermutation, thus producing a human "library" of different IgG antibodies that can then be screened against any antigen. Since diversity is generated ex vivo, sampling immunized or previously exposed individuals is not necessary. Cells producing the antibody of interest can be isolated through limiting dilution cloning and the human antibody from the cells can be tested for biological activity. No humanization is necessary because the antibodies are produced from human B cells. By eliminating immunization and humanization steps, and screening a broadly diverse library, this platform should reduce both the cost and time involved in producing therapeutic monoclonal antibody candidates.

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Norma Bradley

In vivo Expansion, Persistence, and Function of Peptide Vaccine–Induced CD8 T Cells Occur Independently of CD4 T Cells

Prostaglandin E2 Induces miR675-5p to Promote Colorectal Tumor Metastasis via Modulation of p53 Expression

Optimized DNA vaccines to specifically induce therapeutic CD8 T cell responses against autochthonous breast tumors

A novel platform to produce human monoclonal antibodies

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