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TLR5 decoy receptor as a novel anti-amyloid therapeutic for Alzheimer’s disease

BIBLIOGRAPHIC THERAPEUTIC AGENT ANIMAL MODEL EXPERIMENTAL DESIGN OUTCOMES

Bibliographic

Year of Publication:
2018
Contact PI Name:
Todd E. Golde
Contact PI Affiliation:
Center for Translational Research in Neurodegenerative Disease, Department of Neuroscience and McKnight Brain Institute, University of Florida, Gainesville, Florida, USA
Co-Authors:
P. Chakrabarty, A. Li, T.B. Ladd, M.R. Strickland, E.J. Koller, J.D. Burgess, C.C. Funk, P.E. Cruz, M. Allen, M. Yaroshenko, X. Wang, et al.,
Primary Reference (PubMED ID):
30158114
Funding Source:
Arizona Biomedical Research Commission
Arizona Department of Health Services
BrightFocus Foundation
Michael J. Fox Foundation
National Institute on Aging (NIA)
National Institute of Neurological Disorders and Stroke (NINDS)
Study Goal and Principal Findings:

There is considerable interest in harnessing innate immunity to treat Alzheimer’s disease (AD). Here, we explore whether a decoy receptor strategy using the ectodomain of select TLRs has therapeutic potential in AD. AAV-mediated expression of human TLR5 ectodomain (sTLR5) alone or fused to human IgG4 Fc (sTLR5Fc) results in robust attenuation of amyloid β (Aβ) accumulation in a mouse model of Alzheimer-type Aβ pathology. sTLR5Fc binds to oligomeric and fibrillar Aβ with high affinity, forms complexes with Aβ, and blocks Aβ toxicity. Oligomeric and fibrillar Aβ modulates flagellin-mediated activation of human TLR5 but does not, by itself, activate TLR5 signaling. Genetic analysis shows that rare protein coding variants in human TLR5 may be associated with a reduced risk of AD. Further, transcriptome analysis shows altered TLR gene expression in human AD. Collectively, our data suggest that TLR5 decoy receptor–based biologics represent a novel and safe Aβ-selective class of biotherapy in AD.

Bibliographic Notes:
Paramita Chakrabarty and Todd E. Golde (Center for Translational Research in Neurodegenerative Disease, Department of Neuroscience and McKnight Brain Institute, University of Florida, Gainesville, Florida, USA) are corresponding authors on this article.

Full Authors List: P. Chakrabarty, A. Li, T.B. Ladd, M.R. Strickland, E.J. Koller, J.D. Burgess, C.C. Funk, P.E. Cruz, M. Allen, M. Yaroshenko, X. Wang, C. Younkin, J. Reddy, B. Lohrer, L. Mehrke, B.D. Moore, X. Liu, C. Ceballos‑Diaz, A.M. Rosario, C. Medway, C. Janus, H. Li, D.W. Dickson, B.I. Giasson, N.D. Price, S.G. Younkin, N. Ertekin‑Taner, T.E. Golde.

Therapeutic Agent

Therapeutic Information:
Therapy Type:
Biologic - Protein
Therapeutic Agent:
Toll-like Receptor 5 Ectodomain (sTLR5)
PubMed
Patents
Therapeutic Target:
Multi Target
Therapy Type:
Biologic - Protein
Therapeutic Agent:
Human IgG4 Fc-tagged Toll-like Receptor 5 Ectodomain (sTLR5Fc)
PubMed
Patents
Therapeutic Target:
Multi Target
Therapy Type:
Biologic - Protein
Therapeutic Agent:
Toll-like Receptor 4 Ectodomain (sTLR4)
PubMed
Patents
Therapeutic Target:
Multi Target
Therapy Type:
Biologic - Protein
Therapeutic Agent:
Human IgG4 Fc-tagged Toll-like Receptor 4 Ectodomain (sTLR4Fc)
PubMed
Patents
Therapeutic Target:
Multi Target

Animal Model

Model Information:
Species:
Mouse
Model Type:
APP
Model Name:
TgCRND8
ALZFORUM
Strain/Genetic Background:
C57BL6/C3H

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
Experiment Notes

Three mice from the SDS/control group were excluded from Aβ42 analysis for technical issues (details in supplemental information).

Outcomes

Outcome Measured
Outcome Parameters
Behavioral
Burrowing Test
Contextual Fear Conditioning
Histopathology
beta Amyloid Deposits
beta Amyloid Load
Dense-core/Compact Plaques
Activated Microglia
Biochemical
Amyloid Precursor Protein (APP)
APP-CTF83 (CTF alpha)
APP-CTF99 (CTF beta)
Brain-beta Amyloid Peptide-Total
Brain-Detergent Insoluble beta Amyloid Peptide 40
Brain-Detergent Insoluble beta Amyloid Peptide 42
Brain-Formic Acid Insoluble beta Amyloid Peptide 40
Brain-Formic Acid Insoluble beta Amyloid Peptide 42
Brain-Detergent Soluble beta Amyloid Peptide 42
Toll-like Receptor 4 Ectodomain (sTRL4)
Toll-like Receptor 5 Ectodomain (sTLR5)
CD11b
CD68
Glial Fibrillary Acidic Protein (GFAP)
Postsynaptic Density Protein 95 (PSD95)
Spinophilin
Synapsin 1
Synaptophysin
Binding Affinity Measurements
Brain-Buffer Soluble beta Amyloid Peptide 40
Brain-Buffer Soluble beta Amyloid Peptide 42
Immunochemistry
beta-III Tubulin
beta Amyloid Load
Brain-beta Amyloid Deposits
Glial Fibrillary Acidic Protein (GFAP)
Ionized Calcium Binding Adaptor Molecule 1 (Iba1)
Microtubule-Associated Protein 2 (MAP2)
Toll-Like Receptor 2 Ectodomain (sTLR2)
Toll-Like Receptor 4 Ectodomain (sTLR4)
Toll-like Receptor 5 Ectodomain (sTLR5)
Cell Biology
beta Amyloid Peptide Phagocytosis
Microglial Phagocytosis
Cell Viability
Apoptosis
Toll-Like Receptor 5 (TLR5) Activity
Biomarker
Plasma-beta Amyloid Peptide 40
Plasma-beta Amyloid Peptide 42
Omics
Gene Expression Profile
Whole Transcriptome Analysis
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