Chemistry: natural resins or derivatives; peptides or proteins; – Proteins – i.e. – more than 100 amino acid residues
Reexamination Certificate
2000-06-30
2003-05-20
Horlick, Kenneth R. (Department: 1637)
Chemistry: natural resins or derivatives; peptides or proteins;
Proteins, i.e., more than 100 amino acid residues
C435S006120, C435S091100, C435S091200, C536S023100
Reexamination Certificate
active
06566502
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to the identification of expression profiles and the nucleic acids involved in breast and colorectal cancer, and to the use of such expression profiles and nucleic acids in diagnosis and prognosis of breast and colorectal cancers. The invention further relates to methods for identifying and using candidate agents and/or targets which modulate certain cancers.
BACKGROUND OF THE INVENTION
Breast cancer is a significant cancer in Western populations. It develops as the result of a pathologic transformation of normal breast epithelium to an invasive cancer. There have been a number of recently characterized genetic alterations that have been implicated in breast cancer. However, there is a need to identify all of the genetic alterations involved in the development of breast cancer.
Imaging of breast cancer for diagnosis has been problematic and limited. In addition, dissemination of tumor cells (metastases) to locoregional lymph nodes is an important prognostic factor; five year survival rates drop from 80 percent in patients with no lymph node metastases to 45 to 50 percent in those patients who do have lymph node metastases. A recent report showed that micrometastases can be detected from lymph nodes using reverse transcriptase-PCR methods based on the presence of mRNA for carcinoembryonic antigen, which has previously been shown to be present in the vast majority of breast cancers but not in normal tissues. Liefers et al., New England J. of Med. 339(4):223 (1998).
Another disease state which requires more attention is colon cancer (used interchangeably herein with “colorectal cancer”). There have been a number of recently characterized genetic alterations that have been implicated in colorectal cancer, including mutations in two classes of genes, tumor-suppressor genes and proto-oncogenes, with recent work suggesting that mutations in DNA repair genes may also be involved in tumorigenesis. For example, inactivating mutations of both alleles of the adenomatous polyposis coli (APC) gene, a tumor suppressor gene, appears to be one of the earliest events in colorectal cancer, and may even be the initiating event. Other genes implicated in colorectal cancer include the MCC gene, the p53 gene, the DCC (deleted in colorectal carcinoma) gene and other chromosome 18q genes, and genes in the TGF-&bgr; signalling pathway. For a review, see Molecular Biology of Colorectal Cancer, pp238-299, in Curr. Probl. Cancer, September/October 1997.
Thus, methods that can be used for diagnosis and prognosis of breast and colorectal cancer would be desirable. While academia and industry has made an effort to identify novel sequences, there has not been an equal effort exerted to identify the function of the novel sequences. For example, databases show the sequence for accession number R40057, but there is no data correlating this sequence with a function, much less a disease state. Accordingly, provided herein are methods that can be used in diagnosis and prognosis of breast and colorectal cancer. Further provided are methods that can be used to screen candidate bioactive agents for the ability to modulate breast and colon cancer. Additionally, provided herein are molecular targets for therapeutic intervention in breast and other cancers.
SUMMARY OF THE INVENTION
The present invention provides methods for screening for compositions which modulate breast cancer. In an alternative embodiment, the present invention provides methods for screening for compositions which modulate colorectal cancer. In one aspect, a method of screening drug candidates comprises providing a cell that expresses an expression profile gene or fragments thereof. Preferred embodiments of the expression profile gene as described herein include the sequence comprising CZA8 or a fragment thereof. The method further includes adding a drug candidate to the cell and determining the effect of the drug candidate on the expression of the expression profile gene.
In one embodiment, the method of screening drug candidates includes comparing the level of expression in the absence of the drug candidate to the level of expression in the presence of the drug candidate, wherein the concentration of the drug candidate can vary when present, and wherein the comparison can occur after addition or removal of the drug candidate. In a preferred embodiment, the cell expresses at least two expression profile genes. The profile genes may show an increase or decrease.
Also provided herein is a method of screening for a bioactive agent capable of binding to CZA8 or a fragment thereof, the method comprising combining CZA8 or fragment thereof and a candidate bioactive agent, and determining the binding of the candidate agent to the CZA8 or fragment thereof.
Further provided herein is a method for screening for a bioactive agent capable of modulating the bioactivity of CZA8 or a fragment thereof. In one embodiment, the method comprises combining CZA8 or fragment thereof and a candidate bioactive agent, and determining the effect of the candidate agent on the bioactivity of CZA8 or the fragment thereof. In one embodiment, CZA8 has the bioactivity of a breast cancer modulating protein. In another embodiment, CZA8 has the bioactivity of a colorectal cancer modulating protein. In yet another embodiment, CZA8 has the bioactivity of a breast cancer modulating protein and a colorectal cancer modulating protein.
Also provided herein is a method of evaluating the effect of a candidate cancer drug comprising administering the drug to a transgenic animal expressing or over-expressing CZA8 or a fragment thereof, or an animal lacking CZA8 for example as a result of a gene knockout.
Additionally, provided herein is a method of evaluating the effect of a candidate cancer drug comprising administering the drug to a patient and removing a cell sample from the patient. The expression profile of the cell is then determined. This method may further comprise comparing the expression profile to an expression profile of a healthy individual.
Furthermore, a method of diagnosing breast cancer and/or colorectal cancer is provided. The method comprises determining the expression of a gene which encodes CZA8 or a fragment thereof in a first tissue type of a first individual, and comparing this to the expression of the gene from a second unaffected individual. A difference in the expression indicates that the first individual has cancer. In one embodiment, the cancer is breast or colorectal cancer.
In another aspect, the present invention provides an antibody which specifically binds to CZA8, or a fragment thereof. Preferably the antibody is a monoclonal antibody. The antibody can be a fragment of an antibody such as a single stranded antibody as further described herein, or can be conjugated to another molecule. In one embodiment, the antibody is a humanized antibody.
In one embodiment a method for screening for a bioactive agent capable of interfering with the binding of CZA8 or a fragment thereof and an antibody which binds to said CZA8 or fragment thereof is provided. In a preferred embodiment, the method comprises combining CZA8 or a fragment thereof, a candidate bioactive agent and an antibody which binds to said CZA8 or fragment thereof. The method further includes determining the binding of said CZA8 or fragment thereof and said antibody. Wherein there is a change in binding, an agent is identified as an interfering agent. The interfering agent can be an agonist or an antagonist. Preferably, the antibody as well as the agent inhibits breast cancer and/or colorectal cancer.
In one aspect of the invention, a method for inhibiting the activity of a breast cancer or colorectal cancer modulating protein are provided. The method comprises binding an inhibitor to the protein. In a preferred embodiment, the protein is CZA8.
In another aspect, the invention provides a method for neutralizing the effect of a breast cancer or colorectal cancer modulating protein. The method comprises contacting an agent specific for the protein with the protein in
Gish Kurt C.
Mack David
Wilson Keith E.
Eos Biotechnology, Inc.
Kim Young
Townsend & Townsend & Crew
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