Abstract
BackgroundNew pre-clinical trials in AD mouse models may help to develop novel immunogen-adjuvant configurations with the potential to avoid the adverse responses that occurred during the clinical trials with AN-1792 vaccine formulation. Recently, we have pursued an alternative immunization strategy that replaces QS21 the Th1 type adjuvant used in the AN-1792 clinical trial with a molecular adjuvant, mannan that can promote a Th2-polarized immune response through interactions with mannose-binding and CD35/CD21 receptors of the innate immune system. Previously we established that immunization of wild-type mice with mannan-Aβ28 conjugate promoted Th2-mediated humoral and cellular immune responses. In the current study, we tested the efficacy of this vaccine configuration in amyloid precursor protein (APP) transgenic mice (Tg2576).MethodsMannan was purified, activated and chemically conjugated to Aβ28 peptide. Humoral immune responses induced by the immunization of mice with mannan-Aβ28 conjugate were analyzed using a standard ELISA. Aβ42 and Aβ40 amyloid burden, cerebral amyloid angiopathy (CAA), astrocytosis, and microgliosis in the brain of immunized and control mice were detected using immunohistochemistry. Additionally, cored plaques and cerebral vascular microhemorrhages in the brains of vaccinated mice were detected by standard histochemistry.ResultsImmunizations with low doses of mannan-Aβ28 induced potent and long-lasting anti-Aβ humoral responses in Tg2576 mice. Even 11 months after the last injection, the immunized mice were still producing low levels of anti-Aβ antibodies, predominantly of the IgG1 isotype, indicative of a Th2 immune response. Vaccination with mannan-Aβ28 prevented Aβ plaque deposition, but unexpectedly increased the level of microhemorrhages in the brains of aged immunized mice compared to two groups of control animals of the same age either injected with molecular adjuvant fused with an irrelevant antigen, BSA (mannan-BSA) or non-immunized mice. Of note, mice immunized with mannan-Aβ28 showed a trend toward elevated levels of CAA in the neocortex and in the leptomeninges compared to that in mice of both control groups.ConclusionMannan conjugated to Aβ28 provided sufficient adjuvant activity to induce potent anti-Aβ antibodies in APP transgenic mice, which have been shown to be hyporesponsive to immunization with Aβ self-antigen. However, in old Tg2576 mice there were increased levels of cerebral microhemorrhages in mannan-Aβ28 immunized mice. This effect was likely unrelated to the anti-mannan antibodies induced by the immunoconjugate, because control mice immunized with mannan-BSA also induced antibodies specific to mannan, but did not have increased levels of cerebral microhemorrhages compared with non-immunized mice. Whether these anti-mannan antibodies increased the permeability of the blood brain barrier thus allowing elevated levels of anti-Aβ antibodies entry into cerebral perivascular or brain parenchymal spaces and contributed to the increased incidence of microhemorrhages remains to be investigated in the future studies.
Highlights
New pre-clinical trials in Alzheimer's disease (AD) mouse models may help to develop novel immunogenadjuvant configurations with the potential to avoid the adverse responses that occurred during the clinical trials with AN-1792 vaccine formulation
Mannan-Aβ28 immunoconjugate induced potent anti-Aβ antibody responses in the Tg2576 mouse model of AD Previously, we have demonstrated that 10 μg of human mannan-Aβ28 peptide conjugate enhanced Th2 type antiAβ antibody production in wild-type mice[39]
The humoral immune response generated by the mannan-Aβ28 immunogen was long lasting since the anti-Aβ antibody concentration remained readily detectable (0.8 μg/ml or approximately a titer of ≥ 1:800) in vaccinated animals that were held free of immunizations for 11 months (Figure 1A)
Summary
New pre-clinical trials in AD mouse models may help to develop novel immunogenadjuvant configurations with the potential to avoid the adverse responses that occurred during the clinical trials with AN-1792 vaccine formulation. One potentially powerful strategy for reducing the level of Aβ in the brain is immunotherapy, in which antibodies specific for Aβ facilitate the clearance amyloid deposits and a reduction in other forms Aβ in the brain parenchyma Both active and passive Aβ-immunotherapy significantly decrease amyloid deposits, neuritic dystrophy and gliosis in the brain, as well as improve behavioural measures in APP/Tg mice [7,8,9,10,11,12]. It was reported that active immunizations of APP/Tg mice with fibrillar Aβ42 formulated in a strong conventional adjuvant, Freund's complete adjuvant system (FCA), could increase microhemorrhages in the brains of vaccinated animals [22] These adverse events emphasized the need for further refinement of vaccines for AD in order to eliminate, or at least attenuate, the potential adverse events initiated by infiltration of autoreactive T cells and peripheral macrophages, as well as inflammation-induced cerebral vascular microhemorrhages
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