Chemokine receptor materials and methods

a technology of chemokine receptors and materials, applied in the field of signal transduction pathways, can solve problems such as complex tasks, and achieve the effect of selecting the pathological advantage of the virus

Inactive Publication Date: 2008-02-07
EUROSCREEN SA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

[0018] The nucleotide sequences of the invention may also be used to design oligonucleotides for use as labeled probes to isolate genomic DNAs encoding 88-2B or 88C under stringent hybridization conditions (i.e., by Southern analyses and Polymerase Chain Reaction methodologies). Moreover, these oligonucleotide probes can be used to detect particular alleles of the genes encoding 88-2B or 88C, facilitating both diagnosis and gene therapy treatments of disease states associated with particular alleles. In addition, these oligonucleotides can be used to alter chemokine receptor genetics to facilitate identification of chemokine receptor modulators. Also, the nucleotide sequences can be used to design antisense genetic elements of use in exploring or altering the genetics and expression of 88-2B or 88C. The invention also comprehends biological replicas (i.e., copies of isolated DNAs made in vivo or in vitro) and RNA transcripts of DNAs of the invention. Autonomously replicating recombinant constructions such as plasmid, viral, and chromosomal (e.g., YAC) nucleic acid vectors effectively incorporating 88-2B or 88C polynucleotides, and, particularly, vectors wherein DNA effectively encoding 88-2B or 88C is operatively linked to one or more endogenous or heterologous expression control sequences are also provided.
[0026] In another aspect, modulators of the interaction between the 88C and 88-2B receptors and their ligands are specifically contemplated by the invention. Modulators of chemokine receptor function may be identified using assays similar to those used for identifying ligands. The membrane preparation displaying a chemokine receptor is exposed to a constant and known quantity of a detectably labeled functional ligand. In addition, the membrane-bound chemokine receptor is also exposed to an increasing quantity of a test compound suspected of modulating the activity of that chemokine receptor. If the levels of filter-associated label correlate with the quantity of test compound, that compound is a modulator of the activity of the chemokine receptor. If the level of filter-associated label increases with increasing quantities of the test compound, an activator has been identified. In contrast, if the level of filter-associated label varies inversely with the quantity of test compound, an inhibitor of chemokine receptor activity has been identified. Testing for modulators of receptor binding in this way allows for the rapid screening of many putative modulators, as pools containing many potential modulators can be tested simultaneously in the same reaction.

Problems solved by technology

This task is complicated by the diversity of normal and pathological processes in which leukocytes participate.
Recently, however, attention has turned to the cellular receptors that bind the chemokines, because the extracellular chemokines seem to contact cells indiscriminately, and therefore lack the specificity needed to regulate the individual leukocyte cell types.

Method used

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Examples

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Effect test

example 1

[0035] Partial genomic clones encoding the novel chemokine receptor genes of this invention were isolated by PCR based on conserved sequences found in previously identified genes and based on a clustering of these chemokine receptor genes within the human genome. The genomic DNA was amplified by standard. PCR methods using degenerate oligonucleotide primers.

[0036] Templates for PCR amplifications were members of a commercially available source of recombinant human genomic DNA cloned into Yeast Artificial Chromosomes (i.e., YACs). (Research Genetics, Inc., Huntsville, Ala., YAC Library Pools, catalog no. 95011 B). A YAC vector can accommodate inserts of 500-1000 kilobase pairs. Initially, pools of YAC clone DNAs were screened by PCR using primers specific for the gene encoding CCCKR1. In particular, CCCKR(2)-5′, the sense strand primer (corresponding to the sense strand of CCCKR1), is presented in SEQ ID NO:15. Primer CCCKR(2)-5′ consisted of the sequence 5′-CGTAAGCTTAGAGAAGCCGGGATG...

example 2

[0041] Full-length 88-2B and 88C cDNAs were isolated from a macrophage cDNA library by the following procedure. Initially, a cDNA library, described in Tjoelker et al., Nature 374:549-553 (1995), was constructed in pRc / CMV (Invitrogen Corp., San Diego, Calif.) from human macrophage mRNA. The cDNA library was screened for the presence of 88-2B and 88C cDNA clones by PCR using unique primer pairs corresponding to 88-2B or 88C. The PCR protocol involved an initial denaturation at 94° C. for four minutes. Polynucleotides were then amplified using 33 cycles of PCR under the following conditions: Denaturation at 94° C. for one minute, annealing at 55° C. for one minute, and extension at 72° C. for two minutes. The first primer specific for 88-2B was primer 88-2B-f1, presented in SEQ ID NO:11. It corresponds to the sense strand of SEQ ID NO:3 at nucleotides 844-863. The second PCR primer specific for the gene encoding 88-2B was primer 88-2B-r1, presented in SEQ ID NO:12; the 88-2B-r1 seque...

example 3

[0049] The mRNA expression patterns of 88-2B and 88C were determined by Northern blot analyses.

[0050] Northern blots containing immobilized poly A+ RNA from a variety of human tissues were purchased from Clontech Laboratories, Inc., Palo Alto, Calif. In particular, the following tissues were examined: heart, brain, placenta, lung, liver, skeletal muscle, kidney, pancreas, spleen, thymus, prostate, testis, ovary, small intestine, colon and peripheral blood leukocytes.

[0051] A probe specific for 88-2B nucleotide sequences was generated from cDNA clone 478. The cDNA insert in clone 478 contains sequence corresponding to SEQ ID NO: 3 at nucleotides 641-1915. To generate a probe, clone 478 was digested and the insert DNA fragment was isolated following gel electrophoresis. The isolated insert fragment was then radiolabeled with 32P-labeled nucleotides, using techniques known in the art.

[0052] A probe specific for 88C nucleotide sequences was generated by isolating and radiolabeling th...

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Abstract

The present invention provides polynucleotides that encode the chemokine receptors 88-2B or 88C and materials and methods for the recombinant production of these two chemokine receptors. Also provided are assays utilizing the polynucleotides which facilitate the identification of ligands and modulators of the chemokine receptors. Receptor fragments, ligands, modulators, and antibodies are useful in the detection and treatment of disease states associated with the chemokine receptors such as atherosclerosis, rheumatoid arthritis, tumor growth suppression, asthma, viral infection, AIDS, and other inflammatory conditions.

Description

[0001] This application is a continuation-in-part of U.S. patent application Ser. No. 08 / 661,393 filed Jun. 7, 1996 which was in turn a continuation-in-part of U.S. patent application Ser. No. 08 / 575,967 filed Dec. 20, 1995.FIELD OF THE INVENTION [0002] The present invention relates generally to signal transduction pathways. More particularly, the present invention relates to chemokine receptors, nucleic acids encoding chemokine receptors, chemokine receptor ligands, modulators of chemokine receptor activity, antibodies recognizing chemokines and chemokine receptors, methods for identifying chemokine receptor ligands and modulators, methods for producing chemokine receptors, and methods for producing antibodies recognizing chemokine receptors. BACKGROUND OF THE INVENTION [0003] Recent advances in molecular biology have led to an appreciation of the central role of signal transduction pathways in biological processes. These pathways comprise a central means by which individual cells ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C07H21/04C07H21/00C07K16/00C12N15/00C12N5/00C12N5/04C12P21/06A61K38/00G01N33/50A61K39/395A61K45/00A61P7/02A61P17/06A61P19/02A61P29/00A61P31/12A61P31/18C07K14/16C07K14/705C07K14/715C07K16/18C07K16/24C07K16/28C12N1/15C12N1/19C12N1/21C12N5/10C12N15/02C12N15/09C12N15/12C12P21/02C12P21/08C12Q1/02C12Q1/68C12Q1/70C12R1/91C12R1/93G01N33/15G01N33/53G01N33/566G01N33/569
CPCC07K14/7158C07K2319/43C07K16/2866C07K16/18A61P17/06A61P19/02A61P29/00A61P31/12A61P31/18A61P7/02
Inventor GRAY, PATRICK W.SCHWEICKART, VICKI L.RAPORT, CAROL J.
Owner EUROSCREEN SA
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