A modification-specific peptide-based immunization approach using CRM197 carrier protein: Development of a selective vaccine against pyroglutamate Aβ peptides.

Valérie Vingtdeux,Christopher M Acker,Haitian Zhao,Pallavi Chandakkar,Philippe Marambaud,Peter Davies

doi:10.2119/molmed.2016.00218

Valérie Vingtdeux, Christopher M Acker + Show 4 more

Open Access

https://doi.org/10.2119/molmed.2016.00218

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Abstract

Strategies aimed at reducing cerebral accumulation of the amyloid-β (Aβ) peptides have therapeutic potential in Alzheimer's disease (AD). Aβ immunization has proven to be effective at promoting Aβ clearance in animal models but adverse effects have hampered its clinical evaluation. The first anti-Aβ immunization clinical trial, which assessed a full-length Aβ1-42 vaccine, increased the risk of encephalitis most likely because of autoimmune pro-inflammatory T helper 1 (Th1) response against all forms of Aβ. Immunization against less abundant but potentially more pathologically relevant Aβ products, such as N-terminally-truncated pyroglutamate-3 Aβ (AβpE3), could provide efficacy and improve tolerability in Aβ immunotherapy. Here, we describe a selective vaccine against AβpE3, which uses the diphtheria toxin mutant CRM197 as carrier protein for epitope presentation. CRM197 is currently used in licensed vaccines and has demonstrated excellent immunogenicity and safety in humans. In mice, our AβpE3:CRM197 vaccine triggered the production of specific anti-AβpE3 antibodies that did not cross-react with Aβ1-42, non-cyclized AβE3, or N-terminally-truncated pyroglutamate-11 Aβ (AβpE11). AβpE3:CRM197 antiserum strongly labeled AβpE3 in insoluble protein extracts and decorated cortical amyloid plaques in human AD brains. Anti-AβpE3 antibodies were almost exclusively of the IgG1 isotype, suggesting an anti-inflammatory Th2 response bias to the AβpE3:CRM197 vaccine. To the best of our knowledge, this study shows for the first time that CRM197 has potential as a safe and suitable vaccine carrier for active and selective immunization against specific protein sequence modifications or conformations, such as AβpE3.

Highlights

Anti-amyloid-β (Aβ) immunotherapy is under intense investigation in Alzheimer’s disease (AD)(Lemere 2013; Wisniewski & Goñi 2015)
Antiserum obtained after immunization immunoreactivity against synthetic and AD brain-derived AβpE3, with no detectable crossreactivity with Aβ1-42, non-cyclized AβE3, or AβpE11
Further analysis using AD brain samples revealed that AβpE3:CRM197 antiserum mainly decorated highly aggregated amyloid material, supporting the notion that AβpE3 is associated with the dense core of the senile plaques (Sullivan et al 2011)

Summary

Introduction

Anti-amyloid-β (Aβ) immunotherapy is under intense investigation in Alzheimer’s disease (AD). (Lemere 2013; Wisniewski & Goñi 2015). Aβ is the core component of the amyloid plaques, a hallmark of the AD brain, and mutations in its precursor APP or in presenilins—the catalytic components of the Aβ-producing enzyme γ -secretase—cause familial AD (Checler 1995; Marambaud & Robakis 2005; Selkoe 2001). Strategies aimed at preventing or lowering Aβ cerebral accumulation might interfere with AD pathogenesis (Citron 2010). Aβ immunization has proven to be very effective at promoting Aβ clearance, at least in animal models. Preclinical and clinical studies, have been hampered by unforeseen side effects. The first clinical trial AN-1792, which evaluated an Aβ1-42/QS21 vaccine, was halted in phase II when about 6%

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