Tau Passive Immunotherapy in Mutant P301L Mice: Antibody Affinity versus Specificity

Cristina D’Abramo,Heidy T Jimenez,Christopher M Acker,Peter Davies,Thomas Wisniewski

doi:10.1371/journal.pone.0062402

Cristina D’Abramo, Heidy T Jimenez + Show 3 more

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https://doi.org/10.1371/journal.pone.0062402

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Abstract

The use of antibodies to treat neurodegenerative diseases has undergone rapid development in the past decade. To date, immunotherapeutic approaches to Alzheimer’s disease have mostly targeted amyloid beta as it is a secreted protein that can be found in plasma and CSF and is consequently accessible to circulating antibodies. Few recent publications have suggested the utility of treatment of tau pathology with monoclonal antibodies to tau. Our laboratory has begun a systematic study of different classes of tau monoclonal antibodies using mutant P301L mice. Three or seven months old mutant tau mice were inoculated weekly with tau monoclonal antibodies at a dose of 10 mg/Kg, until seven or ten months of age were reached respectively. Our data strongly support the notion that in P301L animals treated with MC1, a conformational monoclonal antibody specific for PHF-tau, the rate of development of tau pathology is effectively reduced, while injecting DA31, a high affinity tau sequence antibody, does not exert such benefit. MC1 appears superior to DA31 in overall effects, suggesting that specificity is more important than affinity in therapeutic applications. Unfortunately the survival rate of the P301L treated mice was not improved when immunizing either with MC1 or PHF1, a high affinity phospho-tau antibody previously reported to be efficacious in reducing pathological tau. These data demonstrate that passive immunotherapy in mutant tau models may be efficacious in reducing the development of tau pathology, but a great deal of work remains to be done to carefully select the tau epitopes to target.

Highlights

Passive immunization with appropriate amyloid beta (Aß) antibodies has been shown to reduce extracellular amyloid deposition in hAPP transgenic mice [1,2,3,4] [1,2,3,4], and numerous humanized monoclonal antibodies to various Aß epitopes are making their way into clinical trials [5]
Additional publications seem to confirm the spreading of pathological tau in certain transgenic mouse models [11,12], again implying the existence of an extracellular tau species that is important in the development of the disease
We have examined sections from every P301L mouse injected with MC1 or DA31 but no evidence of neuronal IgG1 staining has been detected, even small numbers of stained neurons in brain stem are not hard to detect when a tau primary antibody is used (Figure 7A–E)

Summary

Introduction

Passive immunization with appropriate amyloid beta (Aß) antibodies has been shown to reduce extracellular amyloid deposition in hAPP transgenic mice [1,2,3,4] [1,2,3,4], and numerous humanized monoclonal antibodies to various Aß epitopes are making their way into clinical trials [5]. Additional publications seem to confirm the spreading of pathological tau in certain transgenic mouse models [11,12], again implying the existence of an extracellular tau species that is important in the development of the disease. These studies together with more recent data showing that tau is actively released from cultured cells [13,14] suggest that, even under normal conditions, a significant amount of tau is present in the extracellular space. In this context, assuming that tau is at least in part an extracellular protein, efforts to target tau pathology with antibodies appear to be a reasonable exercise

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