Chemistry: molecular biology and microbiology – Micro-organism – tissue cell culture or enzyme using process... – Recombinant dna technique included in method of making a...
Reexamination Certificate
1998-08-21
2003-05-13
Eyler, Yvonne (Department: 1646)
Chemistry: molecular biology and microbiology
Micro-organism, tissue cell culture or enzyme using process...
Recombinant dna technique included in method of making a...
C536S023500, C536S024300, C536S023100, C536S023400, C530S300000, C530S350000
Reexamination Certificate
active
06562589
ABSTRACT:
BACKGROUND OF THE INVENTION
Breast cancer arises from estrogen-responsive breast epithelial cells. Estrogen activity is thought to promote the development of breast cancer, and many breast cancers are initially dependent on estrogen at the time of diagnosis. Anti-estrogen compositions have therefore been used to treat breast cancer.
A frequent mechanism of increased gene expression in human cancers is amplification, i.e., the copy number of a DNA sequence is increased, in a cancer cell compared to a non-cancerous cell. In breast cancer, commonly amplified regions are derived from 17q21, 8q24, and 11q13 which encode erbB-2, c-myc, and cyclic D1 respectively (Devilee et al., 1994, Crit. Rev. Oncog. 5:247-270). Recently, molecular cytogenetic studies have revealed the occurrence in breast cancers of additional regions of increased DNA copy number (Isola et al., Am. J. Pathol. 147:905-911, 1995; Kallioniemi et al., Proc. Nati. Acad. Sci. USA 91:2156-2160, 1994; Muleris et al., Genes Chromo. Cancer 10:160-170, 1994; Tanner et al., Cancer Research 54:4257-4260, 1994; Guan et al., Nat. Genet. 8:155-161, 1994).
Breast cancer is the second leading cause of cancer deaths in American women, and it is estimated that an American woman has at least a 10% cumulative lifetime risk of developing this disease. Early diagnosis is an important factor in breast cancer prognosis and affects not only survival rate, but the range of therapeutic options available to the patient. For instance, if diagnosed early, a “lumpectomy” may be performed, whereas later diagnosis tends to be associated with more invasive and traumatic surgical treatments such as radical mastectomy. The treatment of other cancers likewise is benefitted by early diagnosis, for instance the prognosis in the treatment of lung cancer, colorectal cancer and prostate cancers is greatly improved by early diagnosis. There is a need for a simple and reliable method of diagnosis of cancers in general and of breast cancer in particular. There is a need for a method of screening for compounds that inhibit the interaction between an estrogen receptor ER and an ER-dependent nuclear receptor co-activator molecule in order to identify molecules useful in research diagnosis and treatment of cancer. There is also a need for a method for identifying tamoxifen-sensitive cancer patients in order to better manage treatment. A solution to these needs would improve cancer treatment and research and would save lives.
SUMMARY OF THE INVENTION
The inventors have discovered that the AIB1 protein (Amplified In Breast Cancer-1) is a member of the Steroid Receptor Coactivator-1 (SRC-1) family of nuclear receptor co-activators that interacts with estrogen receptors (ER) to enhance ER-dependent transcription. The inventors have further discovered that the AIB1 gene is amplified and over-expressed in certain cancers including breast cancer, and that detection of amplified AIB1 genes can therefore be used to detect cancerous cells. Importantly, the inventors have also found that AIB1 amplification is not confined to breast cancer but is also found in cancers of the lung, ovary, head and neck, colon, testicles, bladder, prostate, endometrium, kidney, stomach and also in pheochromocytoma, melanoma, ductal carcinoma and carcinoid tumor. Such a finding means that AIB1 may be useful in the detection and treatment of all of the aforementioned cancers which include some of the most prevalent and deadly diseases in the western world.
The inventors have also discovered that AIB1 interacts with the proteins p300 and CBP, which are nuclear cofactors that interact with other nuclear factors to promote transcription (Chacravarti et al.,
Nature
(383) 99-103 1996; Lundblad et al.,
Nature
(374) 85-88 1995). The inventors have, furthermore, determined that in cells with stable over-expression of AIB1, there is a dramatic increase in steroid receptor activation (almost a 100-fold increase) leading to a corresponding increase in transcriptional activation. The inventors have also used monoclonal anti-AIB1 antibodies to demonstrate that AIB1 gene amplification is directly correlated with increased AIB1 expression, and that these amplified copies of the gene are expressed in physiological conditions. The inventors have found that AIB1 is the human ortholog of the mouse ER-dependent transcriptional activator p/CIP, with the proteins having an overall amino acid identity of 81.6%. These finding support the physiological role for AIB1 in cancer cells as a cofactor involved in transcriptional regulation.
The invention features a substantially pure DNA which includes a sequence encoding an AIB1 polypeptide, e.g., a human AIB1 polypeptide, or a fragment thereof. The DNA may have the sequence of all or part of the naturally-occurring AIB1-encoding DNA or a degenerate variant thereof. AIB1-encoding DNA may be operably linked to regulatory sequences for expression of the polypeptide. A cell containing AIB1 encoding DNA is also within the invention.
The invention also includes a substantially pure DNA containing a polynucleotides which hybridizes at high stringency to a AIB1-encoding DNA or the complement thereof. A substantially pure DNA containing a nucleotide sequence having at least 50% sequence identity to the full length AIB1 CDNA, e.g., a nucleotide sequence encoding a polypeptide having the biological activity of a AIB1 polypeptide, is also included.
The invention also features a substantially pure human AIB1 polypeptide and variants thereof, e.g., polypeptides with conservative amino acid substitutions or polypeptides with conservative or non-conservative amino acid substitutions which retain the biological activity of naturally-occurring AIB1.
Diagnostic methods, e.g., to idertify cells which harbor an abnormal copy number of the AIB1 DNA, arc also encompassed by the invention. An abnormal copy number, e.g., greater than the normal diploid copy number, of AIB1 DNA is indicative of an aberrantly proliferating cell, e.g., a steroid hormone-responsive cancer cell.
The invention also includes antibodies, e.g., a monoclonal antibody or polyclonal antisera, which bind specifically to AIB1 and can be used to detect the level of expression of AIB1 in a cell or tissue sample. An increase in the level of expression of AIB1 in a patient-derived tissue sample compared to the level in normal control tissue indicates the presence of a cell proliferative disorder such as cancer.
Screening methods to identify compounds which inhibit an interaction of AIB1 with a steroid hormone receptor, thus disrupting a signal transduction pathway which leads to aberrant cell proliferation, is also within the invention. Proliferation of a cancer cell can therefore be reduced by administering to an individual, e.g., a patient diagnosed with a steroid-responsive cancer, a compound which inhibits expression of AIB1.
The invention also includes a knockout mutant, for example a mouse (or other mammal) from which at least one AIB1 gene has been selectively deleted from its genome. Such a mouse is useful in research, for instance, the phenotype gives insight into the physiological role of the deleted gene. For instance the mutant may be defective in specific biochemical pathways; such a knockout mutant may be used in complementation experiments to determine the role of other genes and proteins to determine if any such genes or proteins complement for the deleted gene. Homozygous and heterozygous mutants are included in this aspect of the invention.
The present invention also includes a mutant organism, for example a mammal such as a mouse which contains more than the normal number of AIB1 genes in its genome. Such a mouse may contain additional copies of the AIB1 gene integrated into its chromosomes, for instance in the form of a pro-virus, or may carry additional copies on extra-chromosomal elements such as plasmids. Such a mutant mouse is useful for research purposes, to elucidate the physiological or pathological role of AIB1. For instance, the role of AIB1 expression as cause or effect in cancers may be investigat
Meltzer Paul
Trent Jeffrey
Basi Nirmal S.
Eyler Yvonne
Klarquist & Sparkman, LLP
The United States of America as represented by the Department of
LandOfFree
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