Receptor–ligand interaction controls microglial chemotaxis and amelioration of Alzheimer's disease pathology

Author:

Lau Shun‐Fat12ORCID,Fu Amy K. Y.123ORCID,Ip Nancy Y.123ORCID

Affiliation:

1. Division of Life Science, State Key Laboratory of Molecular Neuroscience, Molecular Neuroscience Center The Hong Kong University of Science and Technology Hong Kong China

2. Hong Kong Center for Neurodegenerative Diseases Hong Kong China

3. Guangdong Provincial Key Laboratory of Brain Science, Disease and Drug Development HKUST Shenzhen Research Institute, Shenzhen–Hong Kong Institute of Brain Science Shenzhen China

Abstract

AbstractMicroglia maintain brain homeostasis through their ability to survey and phagocytose danger‐associated molecular patterns (DAMPs). In Alzheimer's disease (AD), microglial phagocytic clearance regulates the turnover of neurotoxic DAMPs including amyloid beta (Aβ) and hyperphosphorylated tau. To mediate DAMP clearance, microglia express a repertoire of surface receptors to sense DAMPs; the activation of these receptors subsequently triggers a chemotaxis‐to‐phagocytosis functional transition in microglia. Therefore, the interaction between microglial receptors and DAMPs plays a critical role in controlling microglial DAMP clearance and AD pathogenesis. However, there is no comprehensive overview on how microglial sensome receptors interact with DAMPs and regulate various microglial functions, including chemotaxis and phagocytosis. In this review, we discuss the important axes of receptor–ligand interaction that control different microglial functions and their roles in AD pathogenesis. First, we summarize how the accumulation and structural changes of DAMPs trigger microglial functional impairment, including impaired DAMP clearance and aberrant synaptic pruning, in AD. Then, we discuss the important receptor–ligand axes that restore microglial DAMP clearance in AD and aging. These findings suggest that targeting microglial chemotaxis—the first critical step of the microglial chemotaxis‐to‐phagocytosis state transition—can promote microglial DAMP clearance in AD. Thus, our review highlights the importance of microglial chemotaxis in promoting microglial clearance activity in AD. Further detailed investigations are essential to identify the molecular machinery that controls microglial chemotaxis in AD.image

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience,Biochemistry

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