Miyuki Nishimura scite author profile

Leukocyte trafficking at the endothelium requires both cellular adhesion molecules and chemotactic factors. Fractalkine, a novel transmembrane molecule with a CX3C-motif chemokine domain atop a mucin stalk, induces both adhesion and migration of leukocytes. Here we identify a seven-transmembrane high-affinity receptor for fractalkine and show that it mediates both the adhesive and migratory functions of fractalkine. The receptor, now termed CX3CR1, requires pertussis toxin-sensitive G protein signaling to induce migration but not to support adhesion, which also occurs without other adhesion molecules but requires the architecture of a chemokine domain atop the mucin stalk. Natural killer cells predominantly express CX3CR1 and respond to fractalkine in both migration and adhesion. Thus, fractalkine and CX3CR1 represent new types of leukocyte trafficking regulators, performing both adhesive and chemotactic functions.

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Selective recruitment of CCR4-bearing Th2 cells toward antigen-presenting cells by the CC chemokines thymus and activation-regulated chemokine and macrophage-derived chemokine

Imai¹,

Nagira²,

Takagi³

et al. 1999

635

521

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Helper T cells are classified into Th1 and Th2 subsets based on their profiles of cytokine production. Th1 cells are involved in cell-mediated immunity, whereas Th2 cells induce humoral responses. Selective recruitment of these two subsets depends on specific adhesion molecules and specific chemoattractants. Here, we demonstrate that the T cell-directed CC chemokine thymus and activation-regulated chemokine (TARC) was abundantly produced by monocytes treated with granulocyte macrophage colony stimulating factor (GM-CSF) or IL-3, especially in the presence of IL-4 and by dendritic cells derived from monocytes cultured with GM-CSF + IL-4. The receptor for TARC and another macrophage/dendritic cell-derived CC chemokine macrophage-derived chemokine (MDC) is CCR4, a G protein-coupled receptor. CCR4 was found to be expressed on approximately 20% of adult peripheral blood effector/memory CD4+ T cells. T cells attracted by TARC and MDC generated cell lines predominantly producing Th2-type cytokines, IL-4 and IL-5. Fractionated CCR4+ cells but not CCR4- cells also selectively gave rise to Th2-type cell lines. When naive CD4+ T cells from adult peripheral blood were polarized in vitro, Th2-type cells selectively expressed CCR4 and vigorously migrated toward TARC and MDC. Taken together, CCR4 is selectively expressed on Th2-type T cells and antigen-presenting cells may recruit Th2 cells expressing CCR4 by producing TARC and MDC in Th2-dominant conditions.

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The T Cell-directed CC Chemokine TARC Is a Highly Specific Biological Ligand for CC Chemokine Receptor 4

Imai

Baba

Nishimura

et al. 1997

Journal of Biological Chemistry

514

398

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Chemokines are small secreted polypeptides that play important roles in a wide range of inflammatory and immunological processes by recruiting selected subsets of leukocytes (1, 2). The known chemokines are divided into two major subfamilies based on the spacing of the first two cysteines in the conserved motif. The CXC chemokine subfamily, which includes IL-8 1and IP-10 (4), is characterized by the presence of a single amino acid separating the first two cysteines. The two cysteines are adjacent in the CC chemokine subfamily, which includes RAN-TES (5), MCP-1 (6, 7), MCP-2 (8), MCP-3 (9), MCP-4 (10), MIP-1␣ (11), MIP-1␤ (12), I-309 (13), eotaxin (14, 15), HCC-1 (16), TARC (17), and LARC (18). The CXC chemokines preferentially attract and activate neutrophils, whereas the CC chemokines usually attract and activate monocytes and also basophils, eosinophils, or lymphocytes with variable selectivity (19). Recently, lymphotactin/single C motif 1 that carries only the second and the fourth of the four cysteine residues conserved in other chemokines has been identified, suggesting the existence of the C type chemokine subfamily (20, 21). The human genes for the CXC, CC, and C chemokines are clustered on human chromosomes 4, 17, and 1, respectively (1, 22, 23). Recent studies indicate that genes for certain chemokines are present outside these clusters. For example, a CXC chemokine SDF-1/PBSF has been mapped to human chromosome 10 (24), and CC chemokines TARC and LARC have been mapped to human chromosomes 16 and 2, respectively (18, 25). In addition to chemotactic activity, some chemokines have a regulatory activity on hematopoiesis and angiogenesis (26 -28). Recently, it has been shown that three CC chemokines, MIP-1␣, MIP-1␤, and RANTES, block infection of macrophage-tropic strains of human immunodeficiency virus type 1, while a CXC chemokine, SDF-1/PBSF, blocks infection of T cell line-tropic human immunodeficiency virus type 1 strains (29, 30). The specific effects of chemokines on target cells are mediated by seven-transmembrane G-protein-coupled receptors (31). To date, at least five human CC chemokine receptors have been defined for ligand specificity. CCR1 is a receptor for MIP-1␣, RANTES,; CCR2 is a receptor for 36); CCR3 is a receptor for eotaxin, RANTES,37,38); CCR4 is a receptor for MIP-1␣, RANTES, and MCP-1 (39); and CCR5 is a receptor for MIP-1␣, MIP-1␤, and RANTES (40 -42). The specific ligands for CCR1, CCR2, CCR3, and CCR5 were demonstrated by specific binding and functional assays such as chemotaxis and calcium flux using cDNA-transfected mammalian cells. In the case of CCR4, however, only marginal levels of binding of MIP-1␣ and RANTES were shown with HL-60 cells transfected with CCR4 (43), while a chloride current induction in response to MIP-1␣, RANTES, and MCP-1 was demonstrated in CCR4 cRNA-injected oocytes (39). Except for CCR3 that is almost exclusively expressed on eosinophils (38, 44), other receptors were reported to be expressed on monocytes and lymphocytes. Notably, CCR4 that was originall...

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Nectin-3, a New Member of Immunoglobulin-like Cell Adhesion Molecules That Shows Homophilic and Heterophilic Cell-Cell Adhesion Activities

Satoh-Horikawa

Nakanishi

Takahashi

et al. 2000

Journal of Biological Chemistry

259

340

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We have isolated a novel cell-cell adhesion system localized at cadherin-based adherens junctions (AJs). This system consists of at least nectin, a Ca 2؉ -independent immunoglobulin-like adhesion molecule, and afadin, an actin filament-binding protein, that connects nectin to the actin cytoskeleton. Nectin constitutes a family consisting of two members, nectin-1 and -2. We have isolated here a third member of the nectin family and named it nectin-3. Nectin-3 has three splicing variants, nectin-3␣ (biggest), -3␤ (middle), and -3␥ (smallest). Like nectin-1 and -2, nectin-3␣ consists of three extracellular immunoglobulin-like domains, a transmembrane segment, and a cytoplasmic region with the C-terminal consensus motif for binding to the PDZ domain. Nectin-3␣ formed a cis-homo-dimer and showed Ca 2؉ -independent trans-homo-interaction to cause homophilic cell-cell adhesion. Nectin-3␣ furthermore showed trans-hetero-interaction with nectin-1 or -2 but did not form a cis-hetero-dimer with nectin-1 or -2. Nectin-1 did not show trans-heterointeraction with nectin-2. The affinity of trans-heterointeraction of nectin-3␣ with nectin-1 or -2 was higher than that of trans-homo-interaction of nectin-1, -2, or -3␣. Nectin-2 and -3 were ubiquitously expressed, whereas nectin-1 was abundantly expressed in brain. Nectin-3␣ was colocalized with nectin-2 at cadherinbased AJs and interacted with afadin. These results indicate that the nectin family consists of at least three members, nectin-1, -2, and -3, all of which show homophilic and heterophilic cell-cell adhesion activities and are localized at cadherin-based AJs.

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Differences in neurogenic potential in floor plate cells along an anteroposterior location: midbrain dopaminergic neurons originate from mesencephalic floor plate cells

et al. 2007

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Directed differentiation and purification of mesencephalic dopaminergic (mesDA) neurons from stem cells are crucial issues for realizing safe and efficient cell transplantation therapies for Parkinson's disease. Although recent studies have identified the factors that regulate mesDA neuron development, the mechanisms underlying mesDA neuron specification are not fully understood. Recently, it has been suggested that mesencephalic floor plate (FP) cells acquire neural progenitor characteristics to generate mesDA neurons. Here, we directly examined this in a fate mapping experiment using fluorescence-activated cell sorting (FACS) with an FP cell-specific surface marker, and demonstrate that mesencephalic FP cells have neurogenic activity and generate mesDA neurons in vitro. By contrast, sorted caudal FP cells have no neurogenic potential, as previously thought. Analysis of dreher mutant mice carrying a mutation in the Lmx1a locus and transgenic mice ectopically expressing Otx2 in caudal FP cells demonstrated that Otx2 determines anterior identity that confers neurogenic activity to FP cells and specifies a mesDA fate, at least in part through the induction of Lmx1a. We further show that FACS can isolate mesDA progenitors, a suitable transplantation material, from embryonic stem cell-derived neural cells. Our data provide insights into the mechanisms of specification and generation of mesDA neurons, and illustrate a useful cell replacement approach for Parkinson's disease.

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