Mixed brain pathologies account for most dementia cases in community-dwelling older persons. Careful neuropathological studies have shown that aggregations of ?-syn, A? and tau appear in the same neuronal structures, providing a pathological basis for the clinical observations of the overlap between PD/DLB and AD. Studies with transgenic (Tg) mice with neuronal expression of human A? and ?-syn the doubly Tg mice resembled the Lewy-body variant of Alzheimer's disease (39). These mice had severe deficits in learning and memory, developed motor deficits before ?-syn Tg mice, and showed prominent age- dependent neurodegeneration. More recently, mutant (A53T) ?-syn Tg mice were crossed onto 3xTg-AD Tg mice (DLB-AD mice). The DLB-AD mice exhibit accelerated cognitive decline associated with a dramatic enhancement of A?, tau, and ?-syn pathologies (40). Thus approaches that promote the clearance of ?-syn may provide therapeutic benefit for PD and DLB, as well as AD. Two studies have now shown that active and passive anti-?-syn immunotherapy can decreased aggregated ?-syn in neuronal cell bodies and synapses and improve behavior (1, 2). In this competitive renewal the goals are to design multi-epitope anti-?-syn DNA vaccines and test their therapeutic potential in Tg models that develop human-like neuronal ?-syn pathology and mixed pathology. To fully achieve these goals we propose the following 4 Aims:
Aim 1 : Fine mapping of the B-cell and T-cell epitope(s) of ?-syn in response to DNA Immunization. We will analyze the B- and T- cell immune responses to anti-?-syn DNA Immunization in wild-type mice. Mice will be vaccinated with DNA encoding full-length human ?-syn protein. Anti- ?-syn titers and the B-cell and T-cell epitopes will be identified.
Aim 2 : Testig of candidate multiple-epitope DNA vaccines in wild-type mice. A multi-epitope design where ?-syn B-cell epitopes (12, 15, 52, 54) will be fused with PADRE and as the foreign T helper cell epitopes. Both antibody titers and affinity will be measured.
Aim 3. Testing prophylactic and therapeutic efficacy of ?-syn DNA epitope vaccines Tg mice. Human wild-type ?-syn (hSYN line D) mice (3) will be used. We will assess the ability of the best multi-epitope vaccines to induce """"""""protective"""""""" immune response in pre-pathology 2 months old hSYN Tg mice, and """"""""therapeutic"""""""" response to pre-existing a-syn pathology in 6 months old hSYN Tg mice.
Aim 4. Testing the efficacy of ?-syn DNA epitope vaccine(s) in mixed pathology Tg mice. We will test the ability of the best multi-epitope ?-syn DNA vaccine to induce """"""""protective"""""""" immune response in pre-pathology 2 months old mixed pathology DLB-AD Tg mice. The DLB-AD mice exhibit accelerated cognitive decline associated with a dramatic enhancement of A?, tau, and ?-syn pathologies. Immunized DLB-AD Tg mice will be compared against non-immunized mice for cognitive decline and A?, tau, and ?-syn pathologies. Finally, we will compare the best multi-epitope ?-syn DNA vaccine against our best multi-epitope A? DNA vaccine in the mixed pathology DLB-AD Tg mice (40).

Public Health Relevance

Mixed brain pathologies account for most dementia cases in community-dwelling older persons, and careful neuropathological studies have shown that aggregations of alpha-synuclein, amyloid-beta and tau proteins appear in the same neuronal structures, providing a pathological basis for the clinical observations of the overlap between dementia with Lewy bodies disease (DLB) and Parkinson's disease (PD) and Alzheimer's disease (AD). Taken together, these studies indicate that the pathological process of PD and DLB may accelerate that of AD, while that of AD may also drive PD and DLB. In this competitive renewal we propose to utilize advanced immunotherapeutic strategies to target alpha-synuclein neuropathology. Thus the goal is to design multi-epitope anti-alpha-synuclein DNA vaccines, and test their effectiveness in transgenic mouse models that develop human-like neuronal alpha-synuclein pathology, as well as in mixed pathology transgenic mice with alpha-synuclein pathology and amyloid-beta and tau pathology. In summary, our advanced multiple component DNA vaccine designs are engineered to promote a strong anti-alpha-synuclein antibody response without the risk of producing an adverse autoimmune response.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
2R01AG020241-11A1
Application #
8400340
Study Section
Clinical Neuroimmunology and Brain Tumors Study Section (CNBT)
Program Officer
Petanceska, Suzana
Project Start
2001-09-30
Project End
2017-06-30
Budget Start
2012-08-01
Budget End
2013-06-30
Support Year
11
Fiscal Year
2012
Total Cost
$335,943
Indirect Cost
$68,213
Name
University of California Irvine
Department
Internal Medicine/Medicine
Type
Organized Research Units
DUNS #
046705849
City
Irvine
State
CA
Country
United States
Zip Code
92697
Davtyan, Hayk; Zagorski, Karen; Petrushina, Irina et al. (2017) MultiTEP platform-based DNA vaccines for alpha-synucleinopathies: preclinical evaluation of immunogenicity and therapeutic potency. Neurobiol Aging 59:156-170
Petrushina, Irina; Davtyan, Hayk; Hovakimyan, Armine et al. (2017) Comparison of Efficacy of Preventive and Therapeutic Vaccines Targeting the N Terminus of ?-Amyloid in an Animal Model of Alzheimer's Disease. Mol Ther 25:153-164
Agadjanyan, Michael G; Zagorski, Karen; Petrushina, Irina et al. (2017) Humanized monoclonal antibody armanezumab specific to N-terminus of pathological tau: characterization and therapeutic potency. Mol Neurodegener 12:33
Davtyan, Hayk; Chen, Wesley W; Zagorski, Karen et al. (2017) MultiTEP platform-based DNA epitope vaccine targeting N-terminus of tau induces strong immune responses and reduces tau pathology in THY-Tau22 mice. Vaccine 35:2015-2024
Davtyan, Hayk; Zagorski, Karen; Rajapaksha, Harinda et al. (2016) Alzheimer's disease Advax(CpG)- adjuvanted MultiTEP-based dual and single vaccines induce high-titer antibodies against various forms of tau and A? pathological molecules. Sci Rep 6:28912
Agadjanyan, Michael G; Petrovsky, Nikolai; Ghochikyan, Anahit (2015) A fresh perspective from immunologists and vaccine researchers: active vaccination strategies to prevent and reverse Alzheimer's disease. Alzheimers Dement 11:1246-59
Ghochikyan, Anahit; Pichugin, Alexey; Bagaev, Alexander et al. (2014) Targeting TLR-4 with a novel pharmaceutical grade plant derived agonist, Immunomax®, as a therapeutic strategy for metastatic breast cancer. J Transl Med 12:322
Davtyan, Hayk; Ghochikyan, Anahit; Hovakimyan, Armine et al. (2014) A dual vaccine against influenza & Alzheimer's disease failed to enhance anti-?-amyloid antibody responses in mice with pre-existing virus specific memory. J Neuroimmunol 277:77-84
Davtyan, Hayk; Bacon, Andrew; Petrushina, Irina et al. (2014) Immunogenicity of DNA- and recombinant protein-based Alzheimer disease epitope vaccines. Hum Vaccin Immunother 10:1248-55
Davtyan, Hayk; Hovakimyan, Armine; Zagorski, Karen et al. (2014) BTX AgilePulse(TM) system is an effective electroporation device for intramuscular and intradermal delivery of DNA vaccine. Curr Gene Ther 14:190-9

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