Chemistry: natural resins or derivatives; peptides or proteins; – Peptides of 3 to 100 amino acid residues – 25 or more amino acid residues in defined sequence
Reexamination Certificate
1995-06-07
2001-11-20
Spector, Lorraine (Department: 1646)
Chemistry: natural resins or derivatives; peptides or proteins;
Peptides of 3 to 100 amino acid residues
25 or more amino acid residues in defined sequence
C435S069500
Reexamination Certificate
active
06320023
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to chemokines and more particularly to purified and isolated polynucleotides encoding a novel human C-C chemokine, to purified and isolated chemokine protein encoded by the polynucleotides, and to materials and methods for the recombinant production of the novel chemokine protein.
BACKGROUND
Chemokines, also known as “intercrines” and “SIS cytokines”, comprise a family of small secreted proteins (e.g., 70-100 amino acids and 8-10 kiloDaltons) which attract and activate leukocytes and thereby aid in the stimulation and regulation of the immune system. The name “chemokine” is derived from chemotactic cytokine, and refers to the ability of these proteins to stimulate chemotaxis of leukocytes. Indeed, chemokines may comprise the main attractants for inflammatory cells into pathological tissues. See generally, Baggiolini et al.,
Advances in Immunology,
55:97-179 (1994). While leukocytes comprise a rich source of chemokines, several chemokines are expressed in a multitude of tissues. Id., Table II.
Previously identified chemokines generally exhibit 20-70% amino acid identity to each other and contain four highly-conserved cysteine residues. Based on the relative position of the first two of these cysteine residues, chemokines have been further classified into two subfamilies. In the “C-X-C” or “&agr;” subfamily, encoded by genes localized to human chromosome 4, the first two cysteines are separated by one amino acid. In the “C-C” or “&bgr;” subfamily, encoded by genes on human chromosome 17, the first two cysteines are adjacent. X-ray crystallography and NMR studies of several chemokines have indicated that, in each family, the first and third cysteines form a first disulfide bridge, and the second and fourth cysteines form a second disulfide bridge, strongly influencing the native conformation of the proteins. In humans alone, nearly ten distinct sequences have been described for each chemokine subfamily. Chemokines of both subfamilies have characteristic leader sequences of twenty to twenty-five amino acids.
The C-X-C chemokines, which include IL-8, GRO&agr;/&bgr;/&ggr;, platelet basic protein, Platelet Factor 4 (PF4), IP-10, and others, share approximately 25% to 60% identity when any two amino acid sequences are compared (except for the GRO&agr;/&bgr;/&ggr; members, which are 84-88% identical with each other). Most of the C-X-C chemokines (excluding IP-10 and Platelet Factor 4) share a common E-L-R tri-peptide motif upstream of the first two cysteine residues, and are potent stimulants of neutrophils, causing rapid shape change, chemotaxis, respiratory bursts, and degranulation. These effects are mediated by seven-transmembrane-domain rhodopsin-like G protein-coupled receptors; a receptor specific for IL-8 has been cloned by Holmes et al.,
Science,
253:1278-80 (1991), while a similar receptor (77% identity) which recognizes IL-8, GRO and NAP2 has been cloned by Murphy and Tiffany,
Science,
253:1280-83 (1991). Progressive truncation of the N-terminal amino acid sequence of certain C-X-C chemokines, including IL-8, is associated with marked increases in activity.
The C-C chemokines, which include Macrophage Inflammatory Proteins MIP-1&agr; and MIP-1&ggr;, Monocyte chemoattractant proteins 1, 2, and 3 (MCP-1/2/3), RANTES, I-309, and others, share 25% to 70% amino acid identity with each other. All of the C-C chemokines activate monocytes, causing calcium flux and chemotaxis. More selective effects are seen on lymphocytes, for example, T lymphocytes, which respond best to RANTES. Two seven-transmembrane-domain G protein-coupled receptors for C-C chemokines have been cloned to date: a C-C chemokine receptor-1 which recognizes MIP-1&bgr; and RANTES (Neote et al.,
Cell,
72:415-425 (1993)), while the other recognizes MCP-1 (Charo et al.,
Proc. Nat. Acad. Sci.,
91:2752-56 (1994)).
The roles of a number of chemokines, particularly IL-8, have been well documented in various pathological conditions. See generally Baggiolini et al., supra, Table VII. Psoriasis, for example, has been linked to over-production of IL-8, and several studies have observed high levels of IL-8 in the synovial fluid of inflamed joints of patients suffering from rheumatic diseases, osteoarthritis, and gout.
The role of C-C chemokines in pathological conditions has also been documented, albeit less comprehensively than the role of IL-8. For example, the concentration of MCP-1 is higher in the synovial fluid of patients suffering from rheumatoid arthritis than that of patients suffering from other arthritic diseases. The MCP-1 dependent influx of mononuclear phagocytes may be an important event in the development of idiopathic pulmonary fibrosis. The role of C-C chemokines in the recruitment of monocytes into atherosclerotic areas is currently of intense interest, with enhanced MCP-1 expression having been detected in macrophage-rich arterial wall areas but not in normal arterial tissue. Expression of MCP-1 in malignant cells has been shown to suppress the ability of such cells to form tumors in vivo. (See U.S. Pat. No. 5,179,078, incorporated herein by reference.) A need therefore exists for the identification and characterization of additional C-C chemokines, to further elucidate the role of this important family of molecules in pathological conditions, and to develop improved treatments for such conditions utilizing chemokine-derived products.
Chemokines of the C-C subfamily have been shown to possess utility in medical imaging, e.g., for imaging the site of infection, inflammation, and other sites having C-C chemokine receptor molecules. See, e.g., Kunkel et al., U.S. Pat. No. 5,413,778, incorporated herein by reference. Such methods involve chemical attachment of a labelling agent (e.g., a radioactive isotope) to the C-C chemokine using art recognized techniques (see, e.g., U.S. Pat. Nos. 4,965,392 and 5,037,630, incorporated herein by reference), administration of the labelled chemokine to a subject in a pharmaceutically acceptable carrier, allowing the labelled chemokine to accumulate at a target site, and imaging the labelled chemokine in vivo at the target site. A need in the art exists for additional new C-C chemokines to increase the available arsenal of medical imaging tools.
More generally, due to the importance of chemokines as mediators of chemotaxis and inflammation, a need exists for the identification and isolation of new members of the chemokine family to facilitate modulation of inflammatory and immune responses.
For example, substances that promote inflammation may promote the healing of wounds or the speed of recovery from conditions such as pneumonia, where inflammation is important to eradication of infection. Modulation of inflammation is similarly important in pathological conditions manifested by inflammation. Crohn's disease, manifested by chronic inflammation of all layers of the bowel, pain, and diarrhea, is one such pathological condition. The failure rate of drug therapy for Crohn's disease is relatively high, and the disease is often recurrent even in patients receiving surgical intervention. The identification, isolation, and characterization of novel chemokines facilitates modulation of inflammation.
Similarly, substances that induce an immune response may promote palliation or healing of any number of pathological conditions. Due to the important role of leukocytes (e.g., neutrophils and monocytes) in cell-mediated immune responses, and due to the established role of chemokines in leukocyte chemotaxis, a need exists for the identification and isolation of new chemokines to facilitate modulation of immune responses.
Additionally, the established correlation between chemokine expression and inflammatory conditions and disease states provides diagnostic and prognostic indications for the use of chemokines, as well as for antibody substances that are specifically immunoreactive with chemokines; a need exists for the identification and isolation of new chemokines to facilitate such diagnostic and prognosti
Godiska Ronald
Gray Patrick W.
ICOS Corporation
Jiang Dong
Marshall Gerstein & Borun
Spector Lorraine
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