Youtong Huang scite author profile

Two microglial TAM receptor tyrosine kinases - Axl and Mer - have been linked to Alzheimer’s disease, but their roles in disease have not been tested experimentally. We find that in Alzheimer’s disease and its mouse models, induced expression of Axl and Mer in amyloid plaque-associated microglia was coupled to induced plaque decoration by the TAM ligand Gas6 and its co-ligand phosphatidylserine. In the APP/PS1 mouse model of Alzheimer’s disease, genetic ablation of Axl and Mer resulted in microglia that were unable to normally detect, respond to, organize, or phagocytose amyloid beta plaques. These major deficits notwithstanding, TAM-deficient APP/PS1 mice developed fewer dense-core plaques than APP/PS1 mice with normal microglia. Our findings reveal that the TAM system is an essential mediator of microglial recognition and engulfment of amyloid plaques, and that TAM-driven microglial phagocytosis does not inhibit, but rather promotes, dense-core plaque development.

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The TAM receptor tyrosine kinases Axl and Mer drive the maintenance of highly phagocytic macrophages

Jiménez-García

Mayer

Burrola

et al. 2022

Front. Immunol.

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Many apoptotic thymocytes are generated during the course of T cell selection in the thymus, yet the machinery through which these dead cells are recognized and phagocytically cleared is incompletely understood. We found that the TAM receptor tyrosine kinases Axl and Mer, which are co-expressed by a specialized set of phagocytic thymic macrophages, are essential components of this machinery. Mutant mice lacking Axl and Mer exhibited a marked accumulation of apoptotic cells during the time that autoreactive and nonreactive thymocytes normally die. Unexpectedly, these double mutants also displayed a profound deficit in the total number of highly phagocytic macrophages in the thymus, and concomitantly exhibited diminished expression of TIM-4, CD163, and other non-TAM phagocytic engulfment systems in the macrophages that remained. Importantly, these previously unrecognized deficits were not confined to the thymus, as they were also evident in the spleen and bone marrow. They had pleiotropic consequences for the double mutants, also previously unrecognized, which included dysregulation of hemoglobin turnover and iron metabolism leading to anemia.

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The dense-core plaques of Alzheimer’s disease are granulomas

Lemke

Huang

2022

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Dense-core plaques, whose centers contain highly polymerized and compacted aggregates of amyloid β peptides, are one of the two defining histopathological features of Alzheimer’s disease. Recent findings indicate that these plaques do not form spontaneously but are instead constructed by microglia, the tissue macrophages of the central nervous system. We discuss cellular, structural, functional, and gene expression criteria by which the microglial assembly of dense-core plaques in the Alzheimer’s brain parallels the construction of granulomas by macrophages in other settings. We compare the genesis of these plaques to the macrophage assembly of mycobacterial granulomas, the defining histopathological features of tuberculosis. We suggest that if dense-core plaques are indeed granulomas, their simple disassembly may be contraindicated as an Alzheimer’s therapy.

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Early death in a mouse model of Alzheimer’s disease exacerbated by microglial loss of TAM receptor signaling

Huang

Lemke

2022

Proc. Natl. Acad. Sci. U.S.A.

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Recurrent seizure is a common comorbidity in early-stage Alzheimer’s disease (AD) and may contribute to AD pathogenesis and cognitive decline. Similarly, many mouse models of Alzheimer’s disease that overproduce amyloid beta are prone to epileptiform seizures that may result in early sudden death. We studied one such model, designated APP/PS1 , and found that mutation of the TAM receptor tyrosine kinase (RTK) Mer or its ligand Gas6 greatly exacerbated early death. Lethality was tied to violent seizures that appeared to initiate in the dentate gyrus (DG) of the hippocampus, where Mer plays an essential role in the microglial phagocytosis of both apoptotic and newborn cells normally generated during adult neurogenesis. We found that newborn DG neurons and excitatory synapses between the DG and the cornu ammonis field 3 (CA3) field of the hippocampus were increased in TAM-deficient mice, and that premature death and adult neurogenesis in these mice were coincident. In contrast, the incidence of lethal seizures and the deposition of dense-core amyloid plaques were strongly anticorrelated. Together, these results argue that TAM-mediated phagocytosis sculpts synaptic connectivity in the hippocampus, and that seizure-inducing amyloid beta polymers are present prior to the formation of dense-core plaques.

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Convergent mechanisms of microglia‐mediated synaptic dysfunction contribute to diverse neuropathological conditions

Huang

Stevens

2023

Annals of the New York Academy of Sciences

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Changes in synaptic function are an early hallmark of neuropathological conditions that often precede symptom onset, with mounting genetic, transcriptional, and epidemiological evidence implicating microglia in this process. The correlation between infection and neurocognitive sequelae further suggests that environmental exposures modulate neuroimmune interactions and contribute to synaptic alterations. Recent studies investigating functional roles of microglia across broad neuropathological contexts including neurodegeneration, aging, neuropsychiatric and neurodevelopmental disorders, and neurotropic infections reveal convergent mechanisms underlying microglial‐mediated synaptic dysfunction. We propose that early microglial changes, driven by genetic alterations coupled with environmental neuroimmune modulation, may be a common denominator that contributes to early synaptic pathologies. Here we review the evidence and discuss how microglia respond, and contribute, to synaptopathies across diverse neurological conditions, spotlighting their importance as broadly relevant therapeutic targets within neurological diseases.

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Adaptable toolbox to characterize Alzheimer’s disease pathology in mouse models

Huang¹,

Lemke²

2022

STAR Protocols

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Youtong Huang

Microglia use TAM receptors to detect and engulf amyloid β plaques

The TAM receptor tyrosine kinases Axl and Mer drive the maintenance of highly phagocytic macrophages

The dense-core plaques of Alzheimer’s disease are granulomas

Early death in a mouse model of Alzheimer’s disease exacerbated by microglial loss of TAM receptor signaling

Convergent mechanisms of microglia‐mediated synaptic dysfunction contribute to diverse neuropathological conditions

Adaptable toolbox to characterize Alzheimer’s disease pathology in mouse models

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