TY - JOUR
T1 - Quantifying Antibody Responses Induced by Antigen-Agnostic Immunotherapies
AU - van Vloten, Jacob P.
AU - Klafuric, Elaine M.
AU - Karimi, Khalil
AU - McFadden, G.
AU - Petrik, James J.
AU - Wootton, Sarah K.
AU - Bridle, Byram W.
N1 - Funding Information:
This research was supported by a New Investigator Award and a Program Project Grant from the Terry Fox Research Institute (project numbers 1041 and 1073 , respectively), an Enabling Studies grant from the National Centre of Excellence in Biotherapeutics for Cancer Treatment (project no. ESP3) to B.W.B., and an Innovation Grant that was jointly funded by the Canadian Cancer Society Research Institute and Canadian Institutes of Health Research – Institute of Cancer Research (project no. 705965 ) to B.W.B. and S.K.W. Contributions from S.K.W. were also funded by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada (NSERC project no. 355661 ). Stipend funding was provided by a Canadian Graduate Scholarship-Doctoral Award (from NSERC), Ontario Graduate Scholarship and Ontario Veterinary College (OVC) Graduate Scholarship to J.P.v.V., and an OVC Graduate Scholarship to E.M.K.. We thank Campus Animal Facilities, University of Guelph, for animal care services.
Funding Information:
This research was supported by a New Investigator Award and a Program Project Grant from the Terry Fox Research Institute (project numbers 1041 and 1073, respectively), an Enabling Studies grant from the National Centre of Excellence in Biotherapeutics for Cancer Treatment (project no. ESP3) to B.W.B. and an Innovation Grant that was jointly funded by the Canadian Cancer Society Research Institute and Canadian Institutes of Health Research ? Institute of Cancer Research (project no. 705965) to B.W.B. and S.K.W. Contributions from S.K.W. were also funded by a Discovery Grant from the Natural Sciences and Engineering Research Council of Canada (NSERC project no. 355661). Stipend funding was provided by a Canadian Graduate Scholarship-Doctoral Award (from NSERC), Ontario Graduate Scholarship and Ontario Veterinary College (OVC) Graduate Scholarship to J.P.v.V. and an OVC Graduate Scholarship to E.M.K. We thank Campus Animal Facilities, University of Guelph, for animal care services.
Publisher Copyright:
© 2019 The Authors
PY - 2019/9/13
Y1 - 2019/9/13
N2 - As the development and clinical application of cancer immunotherapies continue to expand, so does the need for novel methods to dissect their mechanisms of action. Antibodies are important effector molecules in cancer therapies due to their potential to bind directly to surface-expressed antigens and facilitate Fc receptor-mediated uptake of antigens by antigen-presenting cells. Quantifying antibodies that are specific for defined antigens is straightforward. However, we describe herein a preclinical method to evaluate tumor-associated and virus-specific antibody responses to antigen-agnostic immunotherapies. This method uses autologous tumor cells as reservoirs of bulk tumor antigens, which can be bound by antibodies from the serum or plasma of tumor-bearing mice. These antibodies can then be detected and quantified using isotype-specific secondary antibodies conjugated to a fluorochrome. Alternatively, virus-infected cells can be used as a source of viral antigens. This method will enable researchers to assess antibody responses following immunotherapies without requiring pre-defined antigens. Alternatively, total virus-specific antibody responses could be studied as an alternative to more limited virus-neutralizing antibody assays. Therefore, this method can facilitate studying the role of humoral responses in the context of immunotherapies, including those that rely on the use of viral vectors.
AB - As the development and clinical application of cancer immunotherapies continue to expand, so does the need for novel methods to dissect their mechanisms of action. Antibodies are important effector molecules in cancer therapies due to their potential to bind directly to surface-expressed antigens and facilitate Fc receptor-mediated uptake of antigens by antigen-presenting cells. Quantifying antibodies that are specific for defined antigens is straightforward. However, we describe herein a preclinical method to evaluate tumor-associated and virus-specific antibody responses to antigen-agnostic immunotherapies. This method uses autologous tumor cells as reservoirs of bulk tumor antigens, which can be bound by antibodies from the serum or plasma of tumor-bearing mice. These antibodies can then be detected and quantified using isotype-specific secondary antibodies conjugated to a fluorochrome. Alternatively, virus-infected cells can be used as a source of viral antigens. This method will enable researchers to assess antibody responses following immunotherapies without requiring pre-defined antigens. Alternatively, total virus-specific antibody responses could be studied as an alternative to more limited virus-neutralizing antibody assays. Therefore, this method can facilitate studying the role of humoral responses in the context of immunotherapies, including those that rely on the use of viral vectors.
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U2 - 10.1016/j.omtm.2019.06.010
DO - 10.1016/j.omtm.2019.06.010
M3 - Article
AN - SCOPUS:85069960058
SN - 2329-0501
VL - 14
SP - 189
EP - 196
JO - Molecular Therapy - Methods and Clinical Development
JF - Molecular Therapy - Methods and Clinical Development
ER -