Your search keyword '"Fisher, Scott"' showing total 3 results

1. Transient Treg depletion enhances therapeutic anti-cancer vaccination.

Author

Fisher SA, Aston WJ, Chee J, Khong A, Cleaver AL, Solin JN, Ma S, Lesterhuis WJ, Dick I, Holt RA, Creaney J, Boon L, Robinson B, and Lake RA

Subjects

Animals, Cell Line, Tumor, Epitopes, Forkhead Transcription Factors genetics, Heparin-binding EGF-like Growth Factor genetics, Immunotherapy, Mice, Transgenic, Neoplasms therapy, Peptides pharmacology, Vaccination, Cancer Vaccines pharmacology, Diphtheria Toxin pharmacology, Lymphocyte Depletion, Neoplasms immunology, T-Lymphocytes, Regulatory immunology

Abstract

Introduction: Regulatory T cells (Treg) play an important role in suppressing anti- immunity and their depletion has been linked to improved outcomes. To better understand the role of Treg in limiting the efficacy of anti-cancer immunity, we used a Diphtheria toxin (DTX) transgenic mouse model to specifically target and deplete Treg., Methods: Tumor bearing BALB/c FoxP3.dtr transgenic mice were subjected to different treatment protocols, with or without Treg depletion and tumor growth and survival monitored., Results: DTX specifically depleted Treg in a transient, dose-dependent manner. Treg depletion correlated with delayed tumor growth, increased effector T cell (Teff) activation, and enhanced survival in a range of solid tumors. Tumor regression was dependent on Teffs as depletion of both CD4 and CD8 T cells completely abrogated any survival benefit. Severe morbidity following Treg depletion was only observed, when consecutive doses of DTX were given during peak CD8 T cell activation, demonstrating that Treg can be depleted on multiple occasions, but only when CD8 T cell activation has returned to base line levels. Finally, we show that even minimal Treg depletion is sufficient to significantly improve the efficacy of tumor-peptide vaccination., Conclusions: BALB/c.FoxP3.dtr mice are an ideal model to investigate the full therapeutic potential of Treg depletion to boost anti-tumor immunity. DTX-mediated Treg depletion is transient, dose-dependent, and leads to strong anti-tumor immunity and complete tumor regression at high doses, while enhancing the efficacy of tumor-specific vaccination at low doses. Together this data highlight the importance of Treg manipulation as a useful strategy for enhancing current and future cancer immunotherapies.

Published

2016

2. Immunotherapy for lung cancer.

Author

Steven A, Fisher SA, and Robinson BW

Subjects

Humans, Lung Neoplasms immunology, Cancer Vaccines therapeutic use, Immunotherapy methods, Lung Neoplasms therapy

Abstract

Treatment of lung cancer remains a challenge, and lung cancer is still the leading cause of cancer-related mortality. Immunotherapy has previously failed in lung cancer but has recently emerged as a very effective new therapy, and there is now growing worldwide enthusiasm in cancer immunotherapy. We summarize why immune checkpoint blockade therapies have generated efficacious and durable responses in clinical trials and why this has reignited interest in this field. Cancer vaccines have also been explored in the past with marginal success. Identification of optimal candidate neoantigens may improve cancer vaccine efficacy and may pave the way to personalized immunotherapy, alone or in combination with other immunotherapy such as immune checkpoint blockade. Understanding the steps in immune recognition and eradication of cancer cells is vital to understanding why previous immunotherapies failed and how current therapies can be used optimally. We hold an optimistic view for the future prospect in lung cancer immunotherapy., (© 2016 Asian Pacific Society of Respirology.)

Published

2016

3. Neoadjuvant anti-tumor vaccination prior to surgery enhances survival.

Author

Fisher SA, Cleaver A, Lakhiani DD, Khong A, Connor T, Wylie B, Lesterhuis WJ, Robinson BW, and Lake RA

Subjects

Animals, CD4 Lymphocyte Count, CD4-Positive T-Lymphocytes pathology, Cell Line, Tumor, Combined Modality Therapy, Female, Mice, Mice, Inbred BALB C, Neoplasms mortality, Neoplasms surgery, Tumor Burden, Vaccination, Cancer Vaccines therapeutic use, Neoadjuvant Therapy methods, Neoplasms therapy

Abstract

Background: This study was conducted to determine if anti-tumor vaccination administered prior to partial debulking surgery could improve survival using a murine solid tumour model., Methods: Tumor incidence and survival rates were compared in mice bearing subcutaneous AB1-HA mesothelioma tumors that received either sham surgery, debulking surgery or vaccination prior to debulking surgery. Additionally, mice were depleted of CD4 and/or CD8 T lymphocytes during vaccination to assess their involvement in vaccine induced anti-tumor immunity. Flow cytometry was performed to characterise changes in the proportion and activation status of immune cells associated with anti-tumor immunity., Results: Neoadjuvant vaccination combined with debulking surgery resulted in decreased tumor burden, increased survival and generation of tumor-specific immunity compared to surgery alone. Depletion of CD8 T cells completely abrogated any vaccine induced anti-tumor immune response. Conversely, CD4 depletion enhanced CD8 T cell activation resulting in complete tumor regression in 70% of mice treated with combined surgery and vaccination therapy. Tumor free survival was associated with established immunological memory as defined by the induction of effector memory T cells and resistance to rechallenge with parental AB1 mesothelioma cells., Conclusions: Neoadjuvant anti-cancer vaccination combined with partial debulking surgery induced CD8-dependent anti-tumor immunity that significantly delayed tumor outgrowth relative to surgery alone. Complete tumor eradication was observed when vaccination and surgery were performed in CD4 T cell depleted animals. This demonstrates that adjuvant immunotherapy can improve post-surgical survival following cancer debulking surgery and provides a scientific rational for clinical trials of such an approach.

Published

2014