Site-directed Mutagenesis of CC Chemokine Receptor 1 Reveals the Mechanism of Action of UCB 35625, a Small Molecule Chemokine Receptor Antagonist

Mendonça, Filipa Lopes de; Fonseca, Paula C. A. da; Phillips, Rhian M.; Saldanha, José W.; Williams, Timothy J.; Pease, James E.

doi:10.1074/jbc.m412267200

Cited by 68 publications

(81 citation statements)

References 41 publications

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“…Because of the similarities in the pharmacophore of LMD-009 to many CC-chemokine receptor antagonists (Mirzadegan et al, 2000;Castonguay et al, 2003;Tsamis et al, 2003;de Mendonça et al, 2005;Maeda et al, 2006;Seibert et al, 2006;Seibert et al, 2006) as described above, it was tempting to believe that LMD-009 would in fact act as an antagonist for other CC-chemokine (or maybe even CXC-chemokine) receptors. We therefore repeated the activity screen of LMD-009, this time as antagonist.…”

Section: Resultsmentioning

confidence: 99%

“…Nonpeptide antagonists against CC-chemokine receptors usually share a common pharmacophore with a rather centrally located, positively charged amine Seibert et al, 2006). This amine has been shown to interact with a highly conserved Glu in the extracellular end of TM-VII (in position VII:06), whereas the flanking groups have been shown to interact with conserved aromatic residues, as well as other residues specific for each chemokine receptor (Mirzadegan et al, 2000;Castonguay et al, 2003;Tsamis et al, 2003;de Mendonça et al, 2005;Maeda et al, 2006;Seibert et al, 2006). Thus, all CC-chemokine receptor nonpeptide antagonists with characterized binding modes interact with GluVII:06 [except for the recently characterized binding pocket of BX471 in CCR1 (Vaidehi et al, 2006)] in addition to aromatic residues in the major binding pocket (composed of TM-III, TM-IV, TM-V, TM-VI, and TM-VII) and in the minor binding pocket (composed of TM-I, TM-II, TM-III, and TM-VII) ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Thus, all CC-chemokine receptor nonpeptide antagonists with characterized binding modes interact with GluVII:06 [except for the recently characterized binding pocket of BX471 in CCR1 (Vaidehi et al, 2006)] in addition to aromatic residues in the major binding pocket (composed of TM-III, TM-IV, TM-V, TM-VI, and TM-VII) and in the minor binding pocket (composed of TM-I, TM-II, TM-III, and TM-VII) ( Fig. 1) (Mirzadegan et al, 2000;Castonguay et al, 2003;Tsamis et al, 2003;de Mendonça et al, 2005;Maeda et al, 2006;Seibert et al, 2006). Like most chemokine receptor nonpeptide ligands, LMD-009 contains a positively charged amine (the piperidine-ring of the spiro system).…”

Section: Resultsmentioning

confidence: 99%

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Molecular Interaction of a Potent Nonpeptide Agonist with the Chemokine Receptor CCR8

Jensen

Nygaard²,

Thiele³

et al. 2007

Molecular Pharmacology

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Most nonpeptide antagonists for CC-chemokine receptors share a common pharmacophore with a centrally located, positively charged amine that interacts with the highly conserved glutamic acid (Glu) located in position 6 of transmembrane helix VII (VII:06). We present a novel CCR8 nonpeptide agonist, -268), and N-(1-(3-(2-methoxyphenoxy)benzyl)piperidin-4-yl)-1,2,3,4-tetrahydro-2-oxoquinoline-4-carboxamide (LMD-174)] included several key-residues for nonpeptide antagonists targeting CCR1, -2, and -5. It is noteworthy that a decrease in potency of nearly 1000-fold was observed for all five compounds for the Ala substitution of the anchor-point GluVII:06 (Glu 286 ) and a gain-of-function of 19-fold was observed for LMD-009 (but not the four other analogs) for the Ala substitution of PheVI:16 (Phe 254 ). These structural hallmarks were particularly important in the generation of a model of the molecular mechanism of action for LMD-009. In conclusion, we present the first molecular mapping of the interaction of a nonpeptide agonist with a chemokine receptor and show that the binding pocket of LMD-009 and of analogs overlaps considerably with the binding pockets of CCchemokine receptor nonpeptide antagonists in general.Chemokine receptors belong to the superfamily of rhodopsin-like G protein-coupled 7TM receptors (Murphy et al., 2000). The chemokine ligands (chemotactic cytokines) are a family of large peptides (70 -80 amino acids in length) composed of around 50 members. The CC-chemokines are characterized by the absence of an amino acid between the first two of four conserved cysteines and constitute the largest group (CCL1-28), whereas the CXC-chemokines constitute the other major group (CXCL1-16). Two additional chemokines, the XCL1 and the CX3CL1, have been described previously (Murphy et al., 2000). The chemokine system regulates the development, activation, and recruitment of leukocytes and plays important roles outside the immune system (for instance, on organogenesis, angiogenesis, and carcinogenesis) (Gerard and Rollins, 2001). CCR8 is selectively expressed on a subset of T-helper-2 (Th2) and regulatory T cells and is upregulated on Th2 cells upon activation (Soler et al

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Molecular Interaction of a Potent Nonpeptide Agonist with the Chemokine Receptor CCR8

Jensen

Nygaard²,

Thiele³

et al. 2007

Molecular Pharmacology

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“…pcDNA3 either unmodified or containing HA-tagged chCXCR1, HA-tagged CCR1 (24), and FLAG-tagged huCXCR1 constructs was introduced into L1.2 cells by electroporation (28). To enhance cell surface receptor expression, transient transfectants were cultured for 24 h in medium supplemented with 10 mM sodium butyrate (Sigma) prior to use.…”

Section: Isolation Of Chicken Peripheral Blood Monocytes Andmentioning

confidence: 99%

“…The chCXCR1 cDNA was then excised from the TOPO vector with EcoRI (New England Biolabs) and XbaI (New England Biolabs) and then ligated into the same sites of a modified pcDNA3 vector containing a hemagglutinin epitope 5Ј to the multiple cloning site (24), to generate a recombinant chCXCR1 with an HA epitope at the 5Ј end.…”

Section: Isolation Of Chicken Peripheral Blood Monocytes Andmentioning

confidence: 99%

Re-evaluation of Chicken CXCR1 Determines the True Gene Structure

Poh

Pease

Young

et al. 2008

Journal of Biological Chemistry

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The original report of chicken CXCR1 (Li, Q. J., Lu, S., Ye, R. D., and Martins-Green, M. (2000) Gene (Amst.) 257, 307-317) described it as a single exon gene, with two isoforms (differing in their start codon). In comparison with mammalian CXCR1, the reported chicken CXCR1 was longer at both the NH 2 and COOH termini, and it lacked the conserved (C/S)CXNP motif present in the last transmembrane region of all known chemokine receptors. A re-evaluation of chicken CXCR1, comparing known expressed sequence tags with the chicken genome sequence, suggested that the gene contains two exons. We isolated a cDNA corresponding to our prediction, which was significantly different in sequence to the reported CXCR1. In particular, there were three frameshifts in our sequence, compared with the reported sequence, that restored higher identity in the COOH-terminal half of the protein to mammalian CXCR1 (61% total amino acid identity compared with 52% for the reported CXCR1), restored the (C/S)CXNP motif, and gave a predicted protein of the same length as mammalian CXCR1. In human, CXCR1 is the receptor for CXCL8. In the chicken, there are two syntenic genes, CXCLi1 and CXCLi2, which look equally like orthologues of human CXCL8. We demonstrate that both of these chemokines are ligands for chicken CXCR1. We also demonstrate that heterophils express chicken CXCR1 and that the receptor is G␣ i protein-linked.CXC chemokines can be classified according to the presence of the tripeptide motif glutamic acid-leucine-arginine (ELR) in the NH 2 -terminal region before the first conserved cysteine. In mammals, ELR ϩ chemokines are specific for polymorphonuclear leukocytes (2), whereas ELR Ϫ chemokines attract a variety of leukocytes (3, 4). In mammals, ELR ϩ CXC chemokines bind to two receptors, CXCR1 and CXCR2, with different affinities. Both receptors are the principal expressed chemokine receptors on neutrophils.To understand the evolution of the chemokines and their receptors in concert with the evolution of different developmental and responsive modes of the immune system, the recently released chicken genome sequence (5) was used to catalogue a complete list of chicken chemokines and their receptors (6 -8). All four classes of chemokines were identified in the chicken genome, although the total number, 24, was fewer than identified in human (42) or mouse (35). For the homeostatic chemokines present, a clear orthologous relationship could be identified, suggesting conservation of function (8). However, for the inflammatory chemokines, the relationships between the chicken chemokines and their mammalian homologues remain unclear (8). All four classes of chemokine receptors were also identified in the chicken genome (8), again with a smaller total repertoire (13 genes) in the chicken as compared with mammals. Similarly to the chemokines, the homeostatic chemokine receptors had obvious mammalian orthologues, whereas the relationships between the inflammatory chemokine receptors remain unclear.In the absence of clear orthologous relation...

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