Gilbert Ng scite author profile

Devices implanted into the body become encapsulated due to a foreign body reaction. In the central nervous system (CNS), this can lead to loss of functionality in electrodes used to treat disorders. Around CNS implants, glial cells are activated, undergo gliosis and ultimately encapsulate the electrodes. The primary cause of this reaction is unknown. Here we show that the mechanical mismatch between nervous tissue and electrodes activates glial cells. Both primary rat microglial cells and astrocytes responded to increasing the contact stiffness from physiological values (G' ∼ 100 Pa) to shear moduli G' ≥ 10 kPa by changes in morphology and upregulation of inflammatory genes and proteins. Upon implantation of composite foreign bodies into rat brains, foreign body reactions were significantly enhanced around their stiff portions in vivo. Our results indicate that CNS glial cells respond to mechanical cues, and suggest that adapting the surface stiffness of neural implants to that of nervous tissue could minimize adverse reactions and improve biocompatibility.

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Alum interaction with dendritic cell membrane lipids is essential for its adjuvanticity

Flach

Hari

et al. 2011

Nat Med

359

299

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As an approved vaccine adjuvant for use in humans, alum has vast health implications, but, as it is a crystal, questions remain regarding its mechanism. Furthermore, little is known about the target cells, receptors, and signaling pathways engaged by alum. Here we report that, independent of inflammasome and membrane proteins, alum binds dendritic cell (DC) plasma membrane lipids with substantial force. Subsequent lipid sorting activates an abortive phagocytic response that leads to antigen uptake. Such activated DCs, without further association with alum, show high affinity and stable binding with CD4(+) T cells via the adhesion molecules intercellular adhesion molecule-1 (ICAM-1) and lymphocyte function-associated antigen-1 (LFA-1). We propose that alum triggers DC responses by altering membrane lipid structures. This study therefore suggests an unexpected mechanism for how this crystalline structure interacts with the immune system and how the DC plasma membrane may behave as a general sensor for solid structures.

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Receptor-Independent, Direct Membrane Binding Leads to Cell-Surface Lipid Sorting and Syk Kinase Activation in Dendritic Cells

et al. 2008

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Summary Binding of particulate antigens by antigen presenting cells (APC) is a critical step in immune activation. Previously, we demonstrated that uric acid crystals are potent adjuvants, initiating a robust adaptive immune response. However, the mechanisms of activation are unknown. Using atomic force microscopy as a tool for real time single cell activation analysis, we report that uric acid crystals can directly engage cellular membranes, particularly the cholesterol components, with a force substantially stronger than protein based cellular contacts. Binding of particulate substances activates Syk kinase-dependent signaling in dendritic cells (DCs). These observations suggest a mechanism whereby immune cell activation can be triggered by solid structures via membrane lipid alteration without the requirement for specific cell surface receptors, and a testable hypothesis for crystal-associated arthropathies, inflammation and adjuvanticity.

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Monosodium urate crystals in inflammation and immunity

Shi¹,

Mucsi²,

Ng³

2009

Immunological Reviews

131

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Uric acid crystals [monosodium urate (MSU)] have emerged as an important factor for both gouty arthritis and immune regulation. This simple crystalline structure appears to activate innate host defense mechanisms in multiple ways and triggers robust inflammation and immune activation. The recognition mechanisms of MSU following its phase change from soluble uric acid are diverse, involving both protein receptors and non-specific plasma membrane attachment. Upon contact with host cells, MSU induces a set of membrane events that trigger Syk and PI3K activation, phagocytosis, and cytokine production. Having entered the cell, MSU further triggers NALP3 inflammasome activation and induces the production of IL-1 beta, likely inducing a full spectrum of inflammation. This review describes the recognition mechanisms and activation pathways involved in MSU-mediated inflammation and adjuvanticity and hypothesizes that direct membrane binding by solid surfaces, such as MSU, may function as a generic mechanism in tissue responses to particulate and crystalline structures.

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Actin polymerization as a key innate immune effector mechanism to control Salmonella infection

Man¹,

Ekpenyong

Tourlomousis³

et al. 2014

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

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Significance Infectious diseases are responsible for one-third of all mortality worldwide. Innate immunity is critical for mounting host defenses that eliminate pathogens. Salmonella is a global food-borne pathogen that infects and replicates within macrophages. How inflammasomes—multimeric protein complexes that provide innate immune protection—function to restrict bacterial burden in macrophages remains unknown. We show that actin polymerization is critical for NLRC4 inflammasome activation in response to Salmonella infection. NLRC4 activation in Salmonella -infected cells prevents further uptake of bacteria by inducing cellular stiffness and antimicrobial responses, which prevent bacterial dissemination in the host. These results demonstrate a critical link between innate immunity and the actin cytoskeleton in the cellular defense against Salmonella infection.

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Gilbert Ng

The relationship between glial cell mechanosensitivity and foreign body reactions in the central nervous system

Alum interaction with dendritic cell membrane lipids is essential for its adjuvanticity

Receptor-Independent, Direct Membrane Binding Leads to Cell-Surface Lipid Sorting and Syk Kinase Activation in Dendritic Cells

Monosodium urate crystals in inflammation and immunity

Actin polymerization as a key innate immune effector mechanism to control Salmonella infection

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