The developmental biology of Drosophila cell surfaces

Hinton, I. E.

January 1987

No description available.

572.8

Cell surface molecules][Morphogenesis

Dectin-1 Promotes Fungicidal Activity of Human Neutrophils

Kennedy, Adam D., Willment, Janet A., Dorward, David W., Williams, David L., Brown, Gordon D., DeLeo, Frank R.

01 February 2007

Human polymorphonuclear leukocytes (PMN) are a first line of defense against fungal infections. PMN express numerous pattern recognition receptors (PRR) that facilitate identification of invading microorganisms and ultimately promote resolution of disease. Dectin-1 (β-glucan receptor) is a PRR expressed on several cell types and has been studied on monocytes and macrophages. However, the role played by dectin-1 in the recognition and killing of fungi by PMN is unknown. We investigated the ability of dectin-1 to mediate human PMN phagocytosis and fungicidal activity. Dectin-1 was expressed on the surface of PMN from all subjects tested (n=29) and in an intracellular compartment that co-sedimented with azurophilic granules in Percoll density gradients. Soluble β-glucan and mAb GE2 (anti-dectin-1) inhibited binding and phagocytosis of zymosan by human PMN (e.g., ingestionwas inhibited 40.1% by 3O min, p<0.001), and blocked reactive oxygen species production. Notably, soluble β-glucan and GE2 inhibited phagocytosis and killing of Candida albicans by PMN (inhibition of killing was 54.8% for β-glucan and 36.2% for GE2, p<0.01). Our results reveal a mechanism whereby PMN dectin-1 plays a key role in the recognition and killing of fungal pathogens by the innate immune system.

cell surface molecules

fungal

human

neutrophils

phagocytosis

Surgery

The Human β-Glucan Receptor Is Widely Expressed and Functionally Equivalent to Murine Dectin-1 on Primary Cells

Willment, Janet A., Marshall, Andrew S., Reid, Delyth M., Williams, David L., Wong, Simon Y.C., Gordon, Siamon, Brown, Gordon D.

01 May 2005

We identified the C-type-lectin-like receptor, Dectin-1, as the major receptor for fungal β-glucans on murine macrophages and have demonstrated that it plays a significant role in the cellular response to these carbohydrates. Using two novel, isoform-specific mAb, we show here that human Dectin-1, the β-glucan receptor (βGR), is widely expressed and present on all monocyte populations as well as macrophages, DC, neutrophils and eosinophils. This receptor is also expressed on B cells and a subpopulation of T cells, demonstrating that human Dectin-1 is not myeloid restricted. Both major functional βGR isoforms - βGR-A and βGR-B - were expressed by these cell populations in peripheral blood; however, only βGR-B was significantly expressed on mature monocyte-derived macrophages and immature DC, suggesting cell-specific control of isoform expression. Inflammatory cells, recruited in vivo using a new skin-window technique, demonstrated that Dectin-1 expression was not significantly modulated on macrophages during inflammation, but is decreased on recruited granulocytes. Despite previous reports detailing the involvement of other β-glucan receptors on mature human macrophages, we have demonstrated that Dectin-1 acted as the major β-glucan receptor on these cells and contributed to the inflammatory response to these carbohydrates.

cell surface molecules

fungal

human

inflammation

monocytes/macrophages

Surgery

Reciprocal Regulation of IL-23 and IL-12 Following Co-Activation of Dectin-1 and TLR Signaling Pathways

Dennehy, Kevin M., Willment, Janet A., Williams, David L., Brown, Gordon D.

01 May 2009

Recognition ofmicrobial products by germ-line-encoded PRR initiates immune responses, but how PRR mediate specific host responses to infectious agents is poorly understood. We and others have proposed that specificity is achieved by collaborative responsesmediated between different PRR. One such example comprises the fungal β-glucan receptor Dectin-1, which collaborates with TLR to induce TNF production. We show here that collaborative responses mediated by Dectin-1 and TLR2 are more extensive than first appreciated, and result in enhanced IL-23, IL-6 and IL-10 production in DC, while down-regulating IL-12 relative to the levels produced by TLR ligation alone. Such down-regulation occurred with multiple MyD88-coupled TLR, was dependent on signaling through Dectin-1 and also occurred in macrophages. These findings explain how fungi can induce IL-23 and IL-6, while suppressing IL-12, a combination which has previously been shown to contribute to the development of Th17 responses found during fungal infections. Furthermore, these data reveal how the collaboration of different PRR can tailor specific responses to infectious agents.

cell surface molecules

DC

host/pathogen interactions

innate immunity

macrophages

Surgery

Vav1 and PI3k Are Required for Phagocytosis of β-Glucan and Subsequent Superoxide Generation by Microglia

Shah, Vaibhav B., Ozment-Skelton, Tammy R., Williams, David L., Keshvara, Lakhu

01 May 2009

Microglia are the resident innate immune cells that are critical for innate and adaptive immune responses within the CNS. They recognize and are activated by pathogen-associated molecular patterns (PAMPs) present on the surface of pathogens. β-glucans, the major PAMP present within fungal cell walls, are recognized by Dectin-1, which mediates numerous intracellular events invoked by β-glucans in various immune cells. Previously, we showed that Dectin-1 mediates phagocytosis of β-glucan and subsequent superoxide production in microglia. Here, we report that the guanine nucleotide exchange factor Vav1 as well as phosphoinositide-3 kinase (PI3K) are downstream mediators of what is now recognized as the Dectin-1 signaling pathway. Both Vav1 and PI3K are activated upon stimulation of microglia with β-glucans, and the two proteins are required for phagocytosis of the glucan particles and for subsequent superoxide production. We also show that Vav1 functions upstream of PI3K and is required for activation of PI3K. Together, our results provide an important insight into the mechanistic aspects of microglial activation in response to β-glucans.

cell surface molecules

fungal

microglia

neuroimmunology

phagocytosis

reactive oxygen species

signal transduction

Surgery

Β-Glucan Attenuates TLR2- and TLR4-Mediated Cytokine Production by Microglia

Shah, Vaibhav B., Williams, David L., Keshvara, Lakhu

24 July 2009

Microglia, the resident immune cells of the brain, are activated in response to any kind of CNS injury, and their activation is critical for maintaining homeostasis within the CNS. However, during inflammatory conditions, sustained microglial activation results in damage to surrounding neuronal cells. β-Glucans are widely recognized immunomodulators, but the molecular mechanisms underlying their immunomodulatory actions have not been fully explored. We previously reported that β-glucans activate microglia through Dectin-1 without inducing significant amount of cytokines and chemokines. Here, we show that particulate β-glucans attenuate cytokine production in response to TLR stimulation; this inhibitory activity of β-glucan is mediated by Dectin-1 and does not require particle internalization. At the molecular level, β-glucan suppressed TLR-mediated NF-κB activation, which may be responsible for the diminished capacity of microglia to produce cytokines in response to TLR stimulation. Overall, these results suggest that β-glucans may be used to prevent or treat excessive microglial activation during chronic inflammatory conditions.

cell activation

cell surface molecules

glucan

microglia

neuroimmunology

toll-like receptors

Surgery

Functional characterization of the CD300e leukocyte receptor

Brckalo, Tamara

24 January 2011

The focus of this work was to functionally characterize the CD300e receptor expressed in human monocytes and myeloid dendritic cells and investigate the implications that receptor engagement has on their biology. We provide evidence formally supporting that CD300e functions as an activating receptor capable of regulating the innate immune response by triggering various pro- inflammatory functions including intracellular calcium mobilization, superoxide anion production, pro-inflammatory cytokine release and up-regulation of co-stimulatory molecules in myeloid cells. We also report that ligation of CD300e on the surface of monocytes results in their differentiation to functional M&#934;2-like macrophages by an autocrine mechanism that involves M-CSF and its receptor (CD115). / L'objectiu d'aquest treball ha estat caracteritzar funcionalment el receptor CD300e expressat en monòcits i cèl·lules dendrítiques mieloides humanes, així com investigar les implicacions que l'activació d'aquest receptor pot tenir en la seva biologia. Demostrem formalment que el receptor CD300e funciona com un receptor activador capaç de regular la resposta immune innata activant diverses funcions proinflamatòries, incloent la mobilització de calci intracel·lular, la producció d'anió superòxid, la secreció de citocines proinflamatòries i la inducció de molècules coestimuladores en cèl·lules mieloides. També descrivim que l'activació del receptor CD300e a la superfície dels monòcits provoca la seva diferenciació cap a macròfags funcionals del tipus M&#934;2 gràcies a un mecanisme autocrí que funciona a través del M-CSF i el seu receptor (CD115).

diferenciació cel.lular

activació cel.lular

molècules de la superfície cel.lular

granulòcits

cèl.lules Dendrítiques

macròfags

cell diferentiation

monòcits

cell activation

CD300

cell surface molecules

granulocytes

monocytes

macrophages

dendritic cells

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