Gain of BDNF function in engrafted neural stem cells promotes the therapeutic potential for Alzheimer’s disease

Bibliographic

Year of Publication:

2016

Contact PI Name:

Kuen-Jer Tsai

Contact PI Affiliation:

Institute of Basic Medical Science, Institute of Clinical Medicine, and Center of Clinical Medicine, National Cheng Kung University Hospital, College of Medicine, National Cheng Kung University, Tainan, Taiwan

Co-Authors:

Cheng-Chun Wu, Cheng-Chang Lien, Wen-Hsien Hou, Po-Min Chiang

Primary Reference (PubMED ID):

27264956

Funding Source:

Taiwan Ministry of Science and Technology

NCKU Academic Summit Program

Study Goal and Principal Findings:

Stem cell-based therapy is a potential treatment for neurodegenerative diseases, but its application to Alzheimer's disease (AD) remains limited. Brain-derived neurotrophic factor (BDNF) is critical in the pathogenesis and treatment of AD. Here, we present a novel therapeutic approach for AD treatment using BDNF-overexpressing neural stem cells (BDNF-NSCs). In vitro, BDNF overexpression was neuroprotective to beta-amyloid-treated NSCs. In vivo, engrafted BDNF-NSCs-derived neurons not only displayed the Ca(2+)-response fluctuations, exhibited electrophysiological properties of mature neurons and integrated into local brain circuits, but recovered the cognitive deficits. Furthermore, BDNF overexpression improved the engrafted cells' viability, neuronal fate, neurite complexity, maturation of electrical property and the synaptic density. In contrast, knockdown of the BDNF in BDNF-NSCs diminished stem cell-based therapeutic efficacy. Together, our findings indicate BDNF overexpression improves the therapeutic potential of engrafted NSCs for AD via neurogenic effects and neuronal replacement, and further support the feasibility of NSC-based ex vivo gene therapy for AD.

Therapeutic Agent

Therapeutic Information:

Therapy Type:

Biologic - Cell-based

Therapeutic Agent:

BDNF-overexpressing Neural Stem Cells (BDNF-NSCs)

PubMed

ClinicalTrials

Patents

Therapeutic Target:

Tyrosine Receptor Kinase B (TrkB)

Open Targets

Pharos

Agora

Therapeutic Notes:

Tyrosine Receptor Kinase B (TrkB) has been nominated as a potential target for AD. Nominated targets are obtained from several sources, including the National Institute on Aging's Accelerating Medicines Partnership in Alzheimer's Disease (AMP-AD) consortium. Targets have been identified using computational analyses of high-dimensional genomic, proteomic and/or metabolomic data derived from human samples. See Agora link for more information.

Animal Model

Model Information:

Species:

Mouse

Model Type:

APP

Model Name:

Tg2576

ALZFORUM

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

Exploratory Activity

Morris Water Maze

Nesting Behavior

Novel Object Recognition Test (NORT)

Motor Function

Swimming Speed

Biochemical

Brain-Derived Neurotrophic Factor (BDNF)

Brain-Derived Neurotrophic Factor (BDNF) mRNA

Brain-Buffer Insoluble beta Amyloid Peptide 40

Brain-Buffer Insoluble beta Amyloid Peptide 42

Brain-Buffer Soluble beta Amyloid Peptide 40

Brain-Buffer Soluble beta Amyloid Peptide 42

Postsynaptic Density Protein 95 (PSD95)

Synaptophysin

Immunochemistry

Brain-Derived Neurotrophic Factor (BDNF)

Doublecortin (DCX)

Glial Fibrillary Acidic Protein (GFAP)

Glutamate Ionotropic Receptor AMPA Type Subunit 2 (GluR2)

Microtubule-Associated Protein 2 (MAP2)

Nestin

Neuronal Marker NeuN

Immature Oligodendrocytes

Postsynaptic Density Protein 95 (PSD95)

Sex-Determining Region Y-Box 2 (SOX2)

Synaptophysin

Microscopy

Dendritic Length

Dendritic Spine Density

Neuronal Cell Number

Neurite Outgrowth

Synaptic Density

Cell Biology

Cell Viability

Engrafted Stem Cells

Intracellular Calcium Concentration

Calcium Oscillations

Calcium Waves

Neurite Outgrowth

Neuronal Differentiation

Electrophysiology

Action Potential Amplitude

Action Potential Half-Width

Action Potential Threshold

Afterhyperpolarization (AHP)

AMPAR/NMDAR Current

GABAR Current

Capacitance

Input Resistance

Mean Firing Frequency

Resting Membrane Potential

Spontaneous Excitatory Postsynaptic Current (sEPSC)

Spontaneous Inhibitory Postsynaptic Current (sIPSC)

Whole Cell Patch Clamp Recording

Transparent. Reproducible. Translatable.