Organic compounds -- part of the class 532-570 series – Organic compounds – Carbohydrates or derivatives
Reexamination Certificate
1996-05-16
2003-04-15
Spector, Lorraine (Department: 1646)
Organic compounds -- part of the class 532-570 series
Organic compounds
Carbohydrates or derivatives
C536S024300, C536S023510, C435S069500, C435S006120, C435S320100, C435S091200, C435S252300, C435S254110, C435S325000, C436S808000
Reexamination Certificate
active
06548654
ABSTRACT:
FIELD OF THE INVENTION
The present invention contemplates compositions related to proteins which function in controlling development, differentiation, trafficking, and physiology of mammalian cells, e.g., cells of a mammalian immune system. In particular, it provides proteins which regulate or evidence development, differentiation, and function of various cell types, including hematopoietic cells.
BACKGROUND OF THE INVENTION
The circulating component of the mammalian circulatory system comprises various cell types, including red and white blood cells of the erythroid and myeloid cell lineages. See, e.g., Rapaport (1987)
Introduction to Hematology
(2d ed.) Lippincott, Philadelphia, Pa.; Jandl (1987)
Blood: Textbook of Hematology
, Little, Brown and Co., Boston, Mass.; and Paul (ed.) (1993)
Fundamental Immunology
(3d ed.) Raven Press, N.Y.
For some time, it has been known that the mammalian immune response is based on a series of complex cellular interactions, called the “immune network.” Recent research has provided new insights into the inner workings of this network. While it remains clear that much of the response does, in fact, revolve around the network-like interactions of lymphocytes, macrophages, granulocytes, and other cells, immunologists now generally hold the opinion that soluble proteins, known as lymphokines, cytokines, or monokines, play a critical role in controlling these cellular interactions. Thus, there is considerable interest in the isolation, characterization, and mechanisms of action of cell modulatory factors, an understanding of which should lead to significant advancements in the diagnosis and therapy of numerous medical abnormalities, e.g., immune system and other disorders.
Lymphokines apparently mediate cellular activities in a variety of ways. They have been shown to support the proliferation, growth, and differentiation of the pluripotential hematopoietic stem cells into vast numbers of progenitors comprising diverse cellular lineages making up a complex immune system. These interactions between the cellular components are necessary for a healthy immune response. These different cellular lineages often respond in a different manner when lymphokines are administered in conjunction with other agents.
The chemokines are a large and diverse superfamily of proteins. The superfamily is subdivided into three branches, based upon whether the first two cysteines in the classical chemokine motif are adjacent (termed the “C-C” branch) or spaced by an intervening residue (“C-X-C”), or a new branch which lacks two cysteines in the corresponding motif, represented by the chemokines known as lymphotactins. See, e.g., Schall and Bacon (1994)
Current Opinion in Immunology
6:865-873; and Bacon and Schall (1996)
Int. Arch. Allergy
&
Immunol
. 109:97-109.
Many factors have been identified which influence the differentiation process of precursor cells, or regulate the physiology or migration properties of specific cell types. These observations indicate that other factors exist whose functions in immune function were heretofore unrecognized. These factors provide for biological activities whose spectra of effects may be distinct from known differentiation or activation factors. The absence of knowledge about the structural, biological, and physiological properties of the regulatory factors which regulate cell physiology in vivo prevents the modification of the effects of such factors. Thus, medical conditions where regulation of the development or physiology of relevant cells is required remains unmanageable.
SUMMARY OF THE INVENTION
The present invention reveals the existence of a previously unknown class of chemokine-motif containing molecules which are hereby designated the CX3C chemokines. The CX3Ckines have three amino acids which separate the cysteines in the corresponding region of the chemokine motif. Based on sequence analysis of the two CX3C protein sequences described below, it is apparent that the CX3Ckines do not belong to the C, C-C, or C-X-C chemokine families. They represent the first known members of a new heretofore unidentified class of chemokines designated CX3Ckines, or alternatively, the CX3C family of chemokines.
The present invention provides a composition of matter selected from an antibody binding site which specifically binds to a mammalian CX3C chemokine; an expression vector encoding a mammalian CX3C chemokine or fragment thereof; a substantially pure protein which is specifically recognized by the antibody binding site; and a substantially pure CX3C chemokine or peptide thereof, or a fusion protein comprising a 30 amino acid fragment of CX3C chemokine sequence.
In the antibody binding site embodiments, the antibody binding site may be: specifically immunoreactive with a mature protein selected from the group consisting of the polypeptides of SEQ ID NO: 2, 4, and 6; raised against a purified or recombinantly produced human or mouse CX3C chemokine; in a monoclonal antibody, Fab, or F(ab)2; or in a labeled antibody. In certain embodiments; the antibody binding site is detected in a biological sample by a method of: contacting a binding agent having an affinity for the CX3C chemokine protein with the biological sample; incubating the binding agent with the biological sample to form a binding agent:CX3C chemokine protein complex; and detecting the complex. In a preferred embodiment, the biological sample is human, and the binding agent is an antibody.
A kit embodiment is provided possessing a composition, described above, with either instructional material for the use of the composition; or segregation of the composition into a container.
A nucleic acid embodiment of the invention includes an expression vector encoding a CX3C chemokine protein, wherein the protein specifically binds an antibody generated against an immunogen selected from the mature polypeptide portions of SEQ ID NO: 2, 4, and 6. The vector may: encode a CX3C chemokine polypeptide with complete sequence identity to a naturally occurring human CX3C chemokine protein; encode a CX3C chemokine protein comprising sequence selected from the polypeptides of SEQ ID NO: 2, 4, and 6; or comprise sequence selected from the nucleic acids of SEQ ID NO: 1, 3, or 5. In other embodiments, the vector is capable of selectively hybridizing to a nucleic acid encoding a CX3C chemokine protein, e.g., a mature protein coding segment of SEQ ID NO: 1, 3, or 5. In various preferred embodiments, the isolated nucleic acid is detected in a biological sample by a method: contacting a biological sample with a nucleic acid probe capable of selectively hybridizing to the nucleic acid; incubating the nucleic acid probe with the biological sample to form a hybrid of the nucleic acid probe with complementary nucleic acid sequences present in the biological sample; and determining the extent of hybridization of the nucleic acid probe to the complementary nucleic acid sequences. In such method, preferably the nucleic acid probe is capable of hybridizing to a nucleic acid encoding a protein consisting of the polypeptides of SEQ ID NO: 2, 4, or 6.
In protein embodiments, the isolated CX3C chemokine protein will preferably be of approximately 11,000 to 15,000 daltons when in unglycosylated form, and the CX3C chemokine protein specifically binds to an antibody generated against an immunogen; the polypeptides of SEQ ID NO: 2, 4, or 6; and the CX3C chemokine lacks the cysteine structural motifs and sequence characteristic of a C, a CC, or a CXC chemokine. In various embodiments, the isolated CX3C chemokine protein is: selected from human CX3Ckine or mouse CX3Ckine; consists of a polypeptide comprising sequence from SEQ ID NO: 2, 4, or 6; recombinantly produced, or a naturally occurring protein.
The present invention also embraces a cell transfected with the nucleic acid encoding a CX3C chemokine, e.g., where the nucleic acid has SEQ ID NO: 1, 3, or 5.
The invention also provides a method of modulating physiology or development of a cell by contacting the cell with a CX3C chemokine, or an antagonist of the ch
Bacon Kevin B.
Bazan J. Fernando
Hardiman Gerard T.
Rossi Devora L.
Schall Thomas J.
Ching Edwin P.
Jiang Dong
Schering Corporation
Spector Lorraine
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