Abstract

AbstractBackgroundNeuroinflammation and mitochondrial dysfunction are central to the progression of Alzheimer’s disease (AD), provoking neuronal loss and cognitive decline. Identifying strategies for mitigating these responses could therefore be of significant therapeutic relevance. Evidence suggests that the inflammatory axis mediated by macrophage migration inhibitory factory (MIF) binding to its receptor, CD74, plays an important role in many central nervous system (CNS) disorders like AD. Our group has developed DRhQ, a novel CD74 binding construct that competitively inhibits MIF binding, blocks T‐cell and macrophage activation and migration into the CNS, enhances anti‐inflammatory microglia cell numbers and reduces pro‐inflammatory gene expression. DRhQ treatment resulted in reduced neuroinflammation and disease severity in a mouse model of multiple sclerosis. Because neuroinflammation is a prominent in the AD brain as well we hypothesized that DRhQ could be a similarly effective neuroprotective agent in the context of AD. We evaluated this hypothesis using the 5xFAD mouse model of β‐amyloid (Aβ) accumulation.MethodSix month old male and female 5xFAD mice and their wild‐type littermates will be treated with 0 or 100 ug of DRhQ subcutaneously for five days followed by a 3 day booster series weekly for the next 3 weeks. During the 4th week of treatment mice were evaluated cognitively using the novel object recognition test and brain tissue was harvested to evaluate mitochondrial function, Aβ pathology as well as markers of microglial activation and neuroinflammation.ResultDRhQ improved cognition and reduced neuroinflammatory markers in both male and female 5xFAD mice. DRhQ also significantly attenuated deficits in cortical mitochondrial function in female 5xFAD mice and elicited a similar, though non‐significant, effect in male 5xFAD mice. Aβ plaque burden was likewise reduced in the hippocampus and cortex of female 5xFAD mice but not significantly reduced in male 5xFAD animals.ConclusionThese results suggest that DRhQ attenuates Aβ pathology, mitochondrial dysfunction and neuroinflammation and improves cognitive function in 5xFAD mice. Future experiments will explore dose response effects and investigate the apparent sex differences in the magnitude of effect of DRhQ on specific endpoints in these mice as well as evaluate the effects of DRhQ in models of tauopathy.

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