A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model

A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model

The programmed cell death 1 (PD-1) pathway represents a major immune checkpoint which may be engaged by cells in a tumor microenvironment to overcome active T-cell immune surveillance. Pembrolizumab (Keytruda®) is a potent and highly selective humanized monoclonal antibody (mAb) of the IgG4/κ isotyp...

Full description

Bibliographic Details
Main Authors: Lisa M. Plitnick, Beth Hutchins, Sheri Dubey, Nianyu Li, Rupesh P. Amin, Stephanie Born, Ruban Mangadu, Joseph H. Phillips, Venkataraman Sriram, Danuta J. Herzyk
Format: Article
Language:English
Published: Taylor & Francis Group 2020-01-01
Series:Journal of Immunotoxicology
Subjects:
anti-pd-1
vaccination
murine
alternate model
Online Access:http://dx.doi.org/10.1080/1547691X.2020.1826020
id doaj-2b47def718a34f4fad7a7bc77b84c7e9
record_format Article
spelling doaj-2b47def718a34f4fad7a7bc77b84c7e92021-02-08T14:09:12ZengTaylor & Francis GroupJournal of Immunotoxicology1547-691X1547-69012020-01-0117117518510.1080/1547691X.2020.18260201826020A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate modelLisa M. Plitnick0Beth Hutchins1Sheri Dubey2Nianyu Li3Rupesh P. Amin4Stephanie Born5Ruban Mangadu6Joseph H. Phillips7Venkataraman Sriram8Danuta J. Herzyk9Merck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncMerck & Co., IncThe programmed cell death 1 (PD-1) pathway represents a major immune checkpoint which may be engaged by cells in a tumor microenvironment to overcome active T-cell immune surveillance. Pembrolizumab (Keytruda®) is a potent and highly selective humanized monoclonal antibody (mAb) of the IgG4/κ isotype designed to directly block the interaction between PD-1 and its ligands, PD-L1 and PD-L2. The current work was focused on developing a mouse T-Dependent Antibody Response (TDAR) model using a murinized rat anti-mouse PD-1 antibody (muDX400; a rodent surrogate for pembrolizumab) to evaluate the potential impact of treatment with a PD-1 inhibitor on immune responses to an antigen challenge (e.g. HBsAg in Hepatitis B vaccine). Despite the lower binding affinity and T1/2 compared to pembrolizumab, ligand blocking data indicated muDX400 had appropriate pharmacological activity and demonstrated efficacy in mouse tumor models, thus was suitable for pharmacodynamic and vaccination studies in mice. In a vaccination study in which mice were concomitantly administered muDX400 and the Hepatitis B vaccine, muDX400 was well-tolerated and did not result in any immune-mediated adverse effects. The treatment with muDX400 was associated with a shift in the ratio between naive and memory cells in both CD4+ and CD8+ T-lymphocytes in the spleen but did not affect anti-HBsAg antibody response profile. The mouse TDAR model using the Hepatitis B vaccine and the surrogate anti-PD1 monoclonal antibody was a useful tool in the evaluation of the potential immune-mediated effects of pembrolizumab following vaccination and appears to be a suitable alternative for the nonhuman primate TDAR models utilized for other checkpoint inhibitors.http://dx.doi.org/10.1080/1547691X.2020.1826020anti-pd-1vaccinationmurinealternate model
collection DOAJ
language English
format Article
sources DOAJ
author Lisa M. Plitnick
Beth Hutchins
Sheri Dubey
Nianyu Li
Rupesh P. Amin
Stephanie Born
Ruban Mangadu
Joseph H. Phillips
Venkataraman Sriram
Danuta J. Herzyk
spellingShingle Lisa M. Plitnick
Beth Hutchins
Sheri Dubey
Nianyu Li
Rupesh P. Amin
Stephanie Born
Ruban Mangadu
Joseph H. Phillips
Venkataraman Sriram
Danuta J. Herzyk
A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
Journal of Immunotoxicology
anti-pd-1
vaccination
murine
alternate model
author_facet Lisa M. Plitnick
Beth Hutchins
Sheri Dubey
Nianyu Li
Rupesh P. Amin
Stephanie Born
Ruban Mangadu
Joseph H. Phillips
Venkataraman Sriram
Danuta J. Herzyk
author_sort Lisa M. Plitnick
title A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
title_short A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
title_full A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
title_fullStr A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
title_full_unstemmed A T-cell-dependent antibody response study using a murine surrogate anti-PD-1 monoclonal antibody as an alternative to a non-human primate model
title_sort t-cell-dependent antibody response study using a murine surrogate anti-pd-1 monoclonal antibody as an alternative to a non-human primate model
publisher Taylor & Francis Group
series Journal of Immunotoxicology
issn 1547-691X
1547-6901
publishDate 2020-01-01
description The programmed cell death 1 (PD-1) pathway represents a major immune checkpoint which may be engaged by cells in a tumor microenvironment to overcome active T-cell immune surveillance. Pembrolizumab (Keytruda®) is a potent and highly selective humanized monoclonal antibody (mAb) of the IgG4/κ isotype designed to directly block the interaction between PD-1 and its ligands, PD-L1 and PD-L2. The current work was focused on developing a mouse T-Dependent Antibody Response (TDAR) model using a murinized rat anti-mouse PD-1 antibody (muDX400; a rodent surrogate for pembrolizumab) to evaluate the potential impact of treatment with a PD-1 inhibitor on immune responses to an antigen challenge (e.g. HBsAg in Hepatitis B vaccine). Despite the lower binding affinity and T1/2 compared to pembrolizumab, ligand blocking data indicated muDX400 had appropriate pharmacological activity and demonstrated efficacy in mouse tumor models, thus was suitable for pharmacodynamic and vaccination studies in mice. In a vaccination study in which mice were concomitantly administered muDX400 and the Hepatitis B vaccine, muDX400 was well-tolerated and did not result in any immune-mediated adverse effects. The treatment with muDX400 was associated with a shift in the ratio between naive and memory cells in both CD4+ and CD8+ T-lymphocytes in the spleen but did not affect anti-HBsAg antibody response profile. The mouse TDAR model using the Hepatitis B vaccine and the surrogate anti-PD1 monoclonal antibody was a useful tool in the evaluation of the potential immune-mediated effects of pembrolizumab following vaccination and appears to be a suitable alternative for the nonhuman primate TDAR models utilized for other checkpoint inhibitors.
topic anti-pd-1
vaccination
murine
alternate model
url http://dx.doi.org/10.1080/1547691X.2020.1826020
work_keys_str_mv AT lisamplitnick atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT bethhutchins atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT sheridubey atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT nianyuli atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT rupeshpamin atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT stephanieborn atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT rubanmangadu atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT josephhphillips atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT venkataramansriram atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT danutajherzyk atcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT lisamplitnick tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT bethhutchins tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT sheridubey tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT nianyuli tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT rupeshpamin tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT stephanieborn tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT rubanmangadu tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT josephhphillips tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT venkataramansriram tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
AT danutajherzyk tcelldependentantibodyresponsestudyusingamurinesurrogateantipd1monoclonalantibodyasanalternativetoanonhumanprimatemodel
_version_ 1724279907117170688

Similar Items