Therapeutic targeting of neuroimmune mechanisms in neurodegeneration
Summary
Effective treatments for age-related chronic neurodegenerative diseases such as Alzheimer's disease remain limited, in part because the molecular drivers of cognitive decline are still not fully understood. Human genetic studies, together with detailed analysis of disease pathology, indicate that the immune system has an important influence on disease progression. Research to date has focused largely on microglia - specialized innate immune cells that reside within the central nervous syst
Content
# Therapeutic targeting of neuroimmune mechanisms in neurodegeneration
*Published: 2026 May*
Effective treatments for age-related chronic neurodegenerative diseases such as
Alzheimer's disease remain limited, in part because the molecular drivers of
cognitive decline are still not fully understood. Human genetic studies,
together with detailed analysis of disease pathology, indicate that the immune
system has an important influence on disease progression. Research to date has
focused largely on microglia - specialized innate immune cells that reside
within the central nervous system (CNS) - as functional studies combined with
deep transcriptional profiling have improved our understanding of this innate
immune cell type in neurodegeneration and have identified several potential
therapeutic targets. Increasing evidence now shows that microglia coordinate
diverse CNS and peripheral cell populations to shape disease outcomes. In this
Review, we discuss these neuroimmune interactions, which reveal a more intricate
framework for how the central and peripheral immune systems may influence
neurodegeneration. These insights could redirect future drug discovery efforts
towards immune targets that complement existing therapies aimed at core
pathological features. We also outline how this knowledge suggests new
therapeutic strategies and highlight a critical need for disease-specific
neuroimmune biomarkers.
DOI: 10.1038/s41573-025-01370-7