Alzheimer’s disease (AD) is the most common form of dementia, affecting more than 35 million people worldwide, and its prevalence is projected to nearly double every 20 years with tremendous social and economic impact on society. The central neuropathological characteristics of AD include neuronal death, amyloid beta (Abeta) deposition, and formation of neurofibrillary tangles. Inflammation is also a pathological hallmark of AD, and understanding the underlying mechanisms may facilitate the development of new treatments.
Our previous pioneer research has demonstrated a role for neutrophils in the induction of memory decline and neuropathological hallmarks of AD, highlighting the role of peripheral immune cells in AD. Moreover, our recent supporting data showed that neutrophils have an activated and degranulating phenotype in AD mouse models. Moreover, we obtained results showing that neutrophil granule molecules have a direct neurotoxic effect on neurons, indicating that targeting specific neutrophil pro-inflammatory and cytotoxic activities is a novel therapeutic strategy in AD. Therefore, the main aim of NeutrAD was to determine the technical and commercial feasibility of novel inhibitors targeting neutrophil granule molecules as disease-modifying drugs against AD.