Samantha J. Allen scite author profile

Chemokines are critical mediators of cell migration during routine immune surveillance, inflammation, and development. Chemokines bind to G protein-coupled receptors and cause conformational changes that trigger intracellular signaling pathways involved in cell movement and activation. Although chemokines evolved to benefit the host, inappropriate regulation or utilization of these proteins can contribute to or cause many diseases. Specific chemokine receptors provide the portals for HIV to get into cells, and others contribute to inflammatory diseases and cancer. Thus, there is significant interest in developing receptor antagonists. To this end, the structures of ligands coupled with mutagenesis studies have revealed mechanisms for antagonism based on modified proteins. Although little direct structural information is available on the receptors, binding of small molecules to mutant receptors has allowed the identification of key residues involved in the receptor-binding pockets. In this review, we discuss the current knowledge of chemokine:receptor structure and function, and its contribution to drug discovery.

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Mast cell–expressed orphan receptor CCRL2 binds chemerin and is required for optimal induction of IgE-mediated passive cutaneous anaphylaxis

Zabel

et al. 2008

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Mast cells contribute importantly to both protective and pathological IgE-dependent immune responses. We show that the mast cell–expressed orphan serpentine receptor mCCRL2 is not required for expression of IgE-mediated mast cell–dependent passive cutaneous anaphylaxis but can enhance the tissue swelling and leukocyte infiltrates associated with such reactions in mice. We further identify chemerin as a natural nonsignaling protein ligand for both human and mouse CCRL2. In contrast to other “silent” or professional chemokine interreceptors, chemerin binding does not trigger ligand internalization. Rather, CCRL2 is able to bind the chemoattractant and increase local concentrations of bioactive chemerin, thus providing a link between CCRL2 expression and inflammation via the cell-signaling chemerin receptor CMKLR1.

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Chemerin Activation by Serine Proteases of the Coagulation, Fibrinolytic, and Inflammatory Cascades

Zabel

Allen

Kulig

et al. 2005

Journal of Biological Chemistry

330

311

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Proteases function at every level in host defense, from regulating vascular hemostasis and inflammation to mobilizing the "rapid responder" leukocytes of the immune system by regulating the activities of various chemoattractants. Recent studies implicate proteolysis in the activation of a ubiquitous plasma chemoattractant, chemerin, a ligand for the G-protein-coupled receptor CMKLR1 present on plasmacytoid dendritic cells and macrophages. To define the pathophysiologic triggers of chemerin activity, we evaluated the ability of serum-and inflammation-associated proteases to cleave chemerin and stimulate CMKLR1-mediated chemotaxis. We showed that serine proteases factor XIIa and plasmin of the coagulation and fibrinolytic cascades, elastase and cathepsin G released from activated neutrophil granules and mast cell tryptase are all potent activators of chemerin. Activation results from cleavage of the labile carboxyl terminus of the chemoattractant at any of several different sites. Activation of chemerin by the serine protease cascades that trigger rapid defenses in the body may direct CMKLR1-positive plasmacytoid dendritic cell and tissue macrophage recruitment to sterile sites of tissue damage, as well as trafficking to sites of infectious and allergic inflammation.A network of serine proteases regulates the primary response to injury and infection in the host. Serine proteases of the coagulation and fibrinolytic cascades mediate the homeostatic response to blood vessel injury. Kallikrein and factor XIIa process kininogens to generate bradykinin, a potent vasodilator that triggers increased vascular permeability during inflammation. Serine proteases termed convertases release multiple pathogen-neutralizing components of activated complement. Serine protease cascades also regulate the recruitment of phagocytic and antigen-presenting cells to sites of inflammation and tissue damage. The complement cascade, for example, releases active components C5a and C3a, potent attractants for many leukocytes, including neutrophils and monocytes (1, 2). Thus serine proteases are critical participants in rapid defense mechanisms in the body.We and others have recently identified chemerin as a potent chemoattractant for cells expressing the G-protein-linked receptor chemokine-like receptor 1 (CMKLR1), 5 also known as ChemR23 or DEZ (3-5). CMKLR1 is expressed in vitro by monocyte-derived macrophages and dendritic cells (3,5,6) and in vivo by circulating plasmacytoid dendritic cells (pDCs) (5) and tissue macrophages.6 pDCs are major producers of ␣-interferons and can differentiate into antigen-presenting cells capable of triggering T effector or suppressor responses (7). Tissue macrophages have a major role as phagocytes but, similar to pDCs, are also implicated in bridging innate and adaptive immune responses and in regulating immunity in sterile versus infectious tissue injury (8). Importantly, chemerin is widely expressed and circulates in human plasma in an inactive state (5). Active forms of chemerin have been isolated from hu...

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Samantha J. Allen

Chemokine:Receptor Structure, Interactions, and Antagonism

Mast cell–expressed orphan receptor CCRL2 binds chemerin and is required for optimal induction of IgE-mediated passive cutaneous anaphylaxis

Chemerin Activation by Serine Proteases of the Coagulation, Fibrinolytic, and Inflammatory Cascades

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