Microglia heterogeneity and neurodegeneration: The emerging paradigm of the role of immunity in Alzheimer's disease

Alzheimer's disease (AD) is the most common dementia type affecting nearly 44 million people worldwide. Recent findings point to microglia as a significant contributor to neural development, neuroinflammation, and degeneration. Dysregulated immunoactivity in AD has been broadly studied, and current research on animal models enabled us to identify a new cluster of microglia (disease-associated microglia) alongside previously detected glial populations (e.g., plaque-associated microglia, dark microglia, Human Alzheimer's microglia) associated with neuroinflammation and with macrophagic activity. These distinct populations of glia show a spatial distribution within plaques with unique imaging features and distinct gene expression profile. Novel genetic approaches using single-nuclei RNA sequencing (sn-RNA seq) allowed researchers to identify gene expression profiles from fixed human samples. Recent studies, exposing transcriptomic clusters of disease-related cells and analyzing sequenced RNA from sorted myeloid cells, seem to confirm the hypothesis of the central role of glia in the pathogenesis of Alzheimer's disease. These discoveries may shed light on the effects of microglial activation and differences in gene expression profiles, furthering research towards the development of a cellspecific therapy. In this review, we examine recent studies that guide us towards recognizing the role of diverse populations of glial cells and their possible heterogeneous functional states in the pathogenesis of AD in humans.