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Amyloid-β peptide-specific DARPins as a novel class of potential therapeutics for Alzheimer disease

Bibliographic

Year of Publication:
2014
Contact PI Name:
Roger M. Nitsch
Contact PI Affiliation:
Division of Psychiatry Research, University of Zurich, Schlieren, Switzerland
Co-Authors:
Michael Hanenberg, Jordan McAfoose, Luka Kulic, Tobias Welt, Fabian Wirth, Petra Parizek, Lisa Strobel, Susann Cattepoel, Claudia Späni, Rebecca Derungs, Marcel Maier, Andreas Plückthun
Primary Reference (PubMED ID):
Funding Source:
Swiss National Science Foundation
University of Zurich
Study Goal and Principal Findings:

Passive immunization with anti-amyloid-β peptide (Aβ) antibodies is effective in animal models of Alzheimer disease. With the advent of efficient in vitro selection technologies, the novel class of designed ankyrin repeat proteins (DARPins) presents an attractive alternative to the immunoglobulin scaffold. DARPins are small and highly stable proteins with a compact modular architecture ideal for high affinity protein-protein interactions. In this report, we describe the selection, binding profile, and epitope analysis of Aβ-specific DARPins. We further showed their ability to delay Aβ aggregation and prevent Aβ-mediated neurotoxicity in vitro. To demonstrate their therapeutic potential in vivo, mono-and trivalent Aβ-specific DARPins (D23 and 3xD23) were infused intracerebroventricularly into the brains of 11-month-old Tg2576 mice over 4 weeks. Both D23 and 3xD23 treatments were shown to result in improved cognitive performance and reduced soluble Aβ levels. These findings demonstrate the therapeutic potential of Aβ-specific DARPins for the treatment of Alzheimer disease.

Therapeutic Agent

Therapeutic Information:
Therapy Type:
Biologic - Immunotherapy(passive)
Therapeutic Agent:
Aβ-Specific Monovalent DARPin D23
Therapeutic Target:
beta Amyloid Peptide
Therapy Type:
Biologic - Immunotherapy(passive)
Therapeutic Agent:
Aβ-Specific Trivalent DARPin 3xD23
Therapeutic Target:
beta Amyloid Peptide

Animal Model

Model Information:
Species:
Mouse
Model Type:
APP
Strain/Genetic Background:
Not Reported

Experimental Design

Is the following information reported in the study?:
Power/Sample Size Calculation
Randomized into Groups
Blinded for Treatment
Blinded for Outcome Measures
Pharmacokinetic Measures
Pharmacodynamic Measures
Toxicology Measures
ADME Measures
Biomarkers
Dose
Formulation
Route of Delivery
Duration of Treatment
Frequency of Administration
Age of Animal at the Beginning of Treatment
Age of Animal at the End of Treatment
Sex as a Biological Variable
Study Balanced for Sex as a Biological Variable
Number of Premature Deaths
Number of Excluded Animals
Statistical Plan
Genetic Background
Inclusion/Exclusion Criteria Included
Conflict of Interest

Outcomes

Outcome Measured
Outcome Parameters
Behavioral
Spontaneous Alternation
Y Maze
Histopathology
beta Amyloid Deposits
Biochemical
Brain-Buffer Soluble beta Amyloid Peptide 38
Brain-Buffer Soluble beta Amyloid Peptide 40
Brain-Buffer Soluble beta Amyloid Peptide 42
Brain-Formic Acid Soluble beta Amyloid Peptide 38
Brain-Formic Acid Soluble beta Amyloid Peptide 40
Brain-Formic Acid Soluble beta Amyloid Peptide 42
Binding Affinity Measurements
EC50
Immunochemistry
Brain-beta Amyloid Deposits
Amyloid Plaque Size
Microtubule-Associated Protein 2 (MAP2)
Spectroscopy
Surface Plasmon Resonance (SPR) Spectroscopy
Cell Biology
Cell Viability
Cell Morphology
Neuroprotection-Amyloid Neurotoxicity
Immunology
Epitope Mapping
Toxicology
Body Weight
General Health
Pharmacology
Binding Affinity
Target Screen
Target Selectivity