Victoria Vanderpoel scite author profile

Objective: Erythropoietin (EPO), a glycoprotein cytokine essential to hematopoiesis, has neuroprotective effects in rodent models of Alzheimer’s disease (AD). However, high therapeutic doses or invasive routes of administration of EPO are required to achieve effective brain concentrations due to low blood-brain barrier (BBB) penetrability, and high EPO doses result in hematopoietic side effects. These obstacles can be overcome by engineering a BBB-penetrable analog of EPO, which is rapidly cleared from the blood, by fusing EPO to a chimeric monoclonal antibody targeting the transferrin receptor (cTfRMAb), which acts as a molecular Trojan horse to ferry the EPO into the brain via the transvascular route. In the current study, we investigated the effects of the BBB-penetrable analog of EPO on AD pathology in a double transgenic mouse model of AD. Methods: 5.5 month old male APPswe PSEN1dE9 (APP/PS1) transgenic mice were treated with saline (n=10), or the BBB-penetrable EPO (n=10) 3 days/week intraperitoneally for 8 weeks, compared to same-aged C57BL/6J wild-type mice treated with saline (n=8) with identical regiment. At 9 weeks following treatment initiation, exploration and spatial memory were assessed with the open-field and Y-maze test, mice were sacrificed, and brains were evaluated for Aβ peptide load, synaptic loss, BBB disruption, microglial activation and microhemorrhages. Results: APP/PS1 mice treated with the BBB-penetrable cTfRMAb-EPO fusion protein had significantly lower cortical and hippocampal Aβ peptide number (p<0.05) and immune-positive area (p<0.05), a decrease in hippocampal synaptic loss (p<0.05) and cortical microglial activation (p<0.001), and improved spatial memory (p<0.05) compared with APP/PS1 saline controls. BBB-penetrating EPO was not associated with microhemorrhage development. Conclusions: The cTfRMAb-EPO fusion protein offers therapeutic benefits by targeting multiple targets of AD pathogenesis and progression (Aβ load, synaptic loss, microglial activation) and improving spatial memory in the APP/PS1 mouse model of AD.

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The Promises and Challenges of Erythropoietin for Treatment of Alzheimer’s Disease

Sun

Martin

Vanderpoel

et al. 2019

Neuromol Med

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Alzheimer's disease (AD) is the most prevalent neurodegenerative disorder in the world, and intracellular neurofibrillary tangles and extracellular amyloid-beta protein deposits represent the major pathological hallmarks of the disease. Currently available treatments provide some symptomatic relief but fail to modify primary pathological processes that underlie the disease. Erythropoietin (EPO), a hematopoietic growth factor, acts primarily to stimulate erythroid cell production, and is clinically used to treat anemia. EPO has evolved as a therapeutic agent for neurodegeneration and has improved neurological outcomes and AD pathology in rodents. However, penetration of the blood-brain barrier (BBB) and negative hematopoietic effects are the two major challenges for the therapeutic development of EPO for chronic neurodegenerative diseases like AD. The transferrin receptors at the BBB, which are responsible for transporting transferrin-bound iron from the blood into the brain parenchyma, can be used to shuttle therapeutic molecules across the BBB. In this review, we discuss the role of EPO as a potential neurotherapeutic for AD, challenges associated with EPO development for AD, and targeting the BBB transferrin receptor for EPO brain delivery.

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A Brain Penetrating Bifunctional Erythropoietin-Transferrin Receptor Antibody Fusion Protein for Alzheimer’s Disease

et al. 2019

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P3‐057: Therapeutic Effects of a Brain Penetrating Bispecific Erythropoietin‐transferrin Receptor Antibody Fusion Protein in the App/Ps1 Mouse Model of Alzheimer's Disease

Chang

Maghribi

Vanderpoel

et al. 2018

Alzheimer's & Dementia

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