Influenza vaccine combined with moderate-dose PD1 blockade reduces amyloid-β accumulation and improves cognition in APP/PS1 mice

Abstract

Immune dysfunction is implicated in Alzheimer’s disease (AD), whereas systemic immune modulation may be neuroprotective. Our previous results have indicated immune challenge with Bacillus Calmette-Guerin attenuates AD pathology in animal models by boosting the systemic immune system. Similarly, independent studies have shown that boosting systemic immune system, by blocking PD-1 checkpoint pathway, modifies AD. Here we hypothesized that influenza vaccine would potentiate function of moderate dose anti-PD-1 and therefore combining them might allow reducing the dose of PD-1 antibody needed to modify the disease. We found that moderate-dose PD-1 in combination with influenza vaccine effectively attenuated cognitive deficit and prevented amyloid-β pathology build-up in APP/PS1 mice in a mechanism dependent on recruitment of peripheral monocyte-derived macrophages into the brain. Eliminating peripheral macrophages abrogated the beneficial effect. Moreover, by comparing CD11b+ compartments in the mouse parenchyma, we observed an elevated subset of Ly6C+ microglia-like cells, which are reportedly derived from peripheral monocytes. In addition, myeloid-derived suppressor cells are strongly elevated in the transgenic model used and normalized by combination treatment, indicating restoration of brain immune homeostasis. Overall, our results suggest that revitalizing brain immunity by combining IV with moderate-dose PD-1 inhibition may represent a therapeutic immunotherapy for AD.