Theses Doctoral

Drivers of Immune Dysregulation in Late-onset Alzheimer's Disease

Roy, Nainika

The dysregulation of immune system function has been centrally implicated in numerous age-related and neurodegenerative disorders, including Alzheimer’s disease (AD). Genetic susceptibility studies have positioned microglia, brain-resident immune cells, as critical actors in the development and the progression of the disease.

Microglia are highly plastic cells with diverse functions across many modalities, and the appropriate regulation of their activities are a prerequisite for central nervous system homeostasis and cognitive health. Aging and pathogenic contexts are posited to modify microglial behavior, inhibiting their neuroprotective function and promoting a dysfunctional state that drives disease. However, the mechanisms underlying these pathogenic alterations in microglial state and function are complex and poorly understood.

This thesis identifies three elements that are altered in the AD brain and investigates how these mechanisms may serve as triggers producing microglial dysregulation in AD. Chapter 3 examines the role of expression of the transposable element LINE-1 in AD-related microglial dysfunction. Chapter 4 explores the regulation of PLCG2, which encodes a critical AD-associated signaling enzyme. Chapter 5 investigates the role of the AD-linked sorting receptor SORL1 in microglia. Together, these data expand our understanding of mechanisms driving altered microglial pathophysiology in AD and illuminate pathways of interest with potential therapeutic applications meriting deeper exploration.

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More About This Work

Academic Units
Neurobiology and Behavior
Thesis Advisors
Sher, Falak
Yamamoto, Ai
Degree
Ph.D., Columbia University
Published Here
August 28, 2024