Alzheimer’s disease (AD) process is understood to involve the accumulation of amyloid plaques and tau tangles in the brain. However, attempts at targeting the main culprits, neurotoxic Aβ peptides, have thus far proven unsuccessful for improving cognitive function. Recent clinical trials with passively administrated anti-Aβ antibodies failed to slow cognitive decline in mild-moderate AD patients, but suggest that an immunotherapeutic approach could be effective in patients with mild AD. In an AD mouse model (Tg2576) we tested the immunogenicity (cellular and humoral immune responses) and efficacy (AD-like pathology) of clinical grade Lu AF20513 vaccine. Lu AF20513 induces robust “non-self” T cell responses and production of anti-Aβ antibodies that reduce AD-like pathology in the brains of Tg2576 mice without inducing microglial activation and enhancing astrocytosis or CAA. Importantly, a single immunization with Lu AF20513 induces strong humoral immunity in mice with pre-existing memory Th cells. In addition, Lu AF20513 induces strong humoral responses in guinea pigs and monkeys. Collectively, these data suggest translation of Lu AF20513 to clinical setting with aims to (i) induce therapeutically potent anti-Aβ antibody responses in patients with mild AD, particularly if they have memory Th cells generated after immunizations with conventional Tetanus Toxoid vaccine; (ii) exclude likely pathological autoreactive T cell responses.
Background
Clinical trials with passive and active AD vaccines suggest that early interventions are needed for improvement of cognitive and/or functional performance in patients providing impetus for the development of safe and immunologically potent active vaccines targeting amyloid β (Aβ). The AN-1792 trial has indicated that Aβ-specific T cells may be unsafe for humans; therefore, other vaccines based on small Aβ epitopes are undergoing pre-clinical and clinical testing.
Methods
Humoral and cellular immune responses elicited in response to a novel DNA epitope-based vaccine (AV-1955) delivered to rhesus macaques using the TriGrid electroporation device were evaluated. Functional activities of anti-Aβ antibodies generated in response to vaccination were assessed in vitro.
Results
AV-1955 generates long-term, potent anti-Aβ antibodies and cellular immune responses specific to foreign T helper (Th) epitopes, but not to self-Aβ.
Conclusion
This translational study demonstrates that a DNA-based epitope vaccine for AD could be appropriate for human clinical testing.
Although β-amyloid (Aβ) may be the primary driver of Alzheimer’s disease (AD) pathology, accumulation of pathological tau correlates with dementia in AD patients. Thus, the prevention/inhibition of AD may require vaccine/s targeting Aβ and tau simultaneously or sequentially. Since high antibody titers are required for AD vaccine efficacy, we have decided to generate vaccines, targeting Aβ (AV-1959R), Tau (AV-1980R) or Aβ/tau (AV-1953R) B cell epitopes, based on immunogenic MultiTEP platform and evaluate the immunogenicity of these vaccines formulated with AdvaxCpG, delta inulin, Alhydrogel®, Montanide-ISA51, Montanide-ISA720, MPLA-SM pharmaceutical grade adjuvants. Formulation of AV-1959R in AdvaxCpG induced the highest cellular and humoral immune responses in mice. The dual-epitope vaccine, AV-1953R, or the combination of AV-1959R and AV-1980R vaccines formulated with AdvaxCpG induced robust antibody responses against various forms of both, Aβ and tau pathological molecules. While anti-Aβ antibody titers after AV-1953R immunization were similar to that in mice vaccinated with AV-1959R or AV-1959R/AV-1980R combination, anti-tau titers were significantly lower after AV-1953R injection when compared to the AV-1980R or AV-1959R/AV-1980R. In silico 3D-modeling provided insight into the differences in immunogenicity of these vaccine constructs. In sum, AV-1959R and AV-1980R formulated with AdvaxCpG adjuvant were identified as promising immunogenic vaccines for ongoing pre-clinical assessment and future human clinical trials.
Immunotherapeutic approaches reducing α-synuclein deposits may provide therapeutic benefit for Dementia with Lewy Bodies (DLB). Immunization with full-length human α-synuclein (hα-Syn) protein in a Parkinson's disease mouse model decreased the accumulation of the aggregated forms of this protein in neurons and reduced neurodegeneration. To enhance the immunogenicity of candidate vaccines and to avoid the risk of autoreactive anti-hα-Syn T-helper (Th) cell responses, we generated three peptide-based epitope vaccines composed of different B-cell epitopes of hα-Syn fused with a “non-self” Th epitope from tetanus toxin (P30). Immunization of mice with these epitope vaccines produced high titers of anti-hα-Syn antibodies that bound to Lewy bodies (LBs) and Lewy neurites (LNs) in brain tissue from DLB cases and induced robust Th cell responses to P30, but not to hα-Syn. Further development of these first generation epitope vaccines may facilitate induction of anti-hα-Syn immunotherapy without producing potentially harmful autoreactive Th cell responses.
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