Chemistry: molecular biology and microbiology – Measuring or testing process involving enzymes or... – Involving antigen-antibody binding – specific binding protein...
Reexamination Certificate
2000-10-05
2004-09-14
Ungar, Susan (Department: 1642)
Chemistry: molecular biology and microbiology
Measuring or testing process involving enzymes or...
Involving antigen-antibody binding, specific binding protein...
C435S007100, C530S350000, C530S387100, C424S185100
Reexamination Certificate
active
06790631
ABSTRACT:
FIELD OF THE INVENTION
The invention described herein relates to a novel gene and its encoded protein, termed PHOR-1, and to diagnostic and therapeutic methods and compositions useful in the management of various cancers that express PHOR-1, particularly prostate cancers.
BACKGROUND OF THE INVENTION
Cancer is the second leading cause of human death next to coronary disease. Worldwide, millions of people die from cancer every year. In the United States alone, cancer causes the death of well over a half-million people annually, with some 1.4 million new cases diagnosed per year. While deaths from heart disease have been declining significantly, those resulting from cancer generally are on the rise. In the early part of the next century, cancer is predicted to become the leading cause of death.
Worldwide, several cancers stand out as the leading killers. In particular, carcinomas of the lung, prostate, breast, colon, pancreas, and ovary represent the primary causes of cancer death. These and virtually all other carcinomas share a common lethal feature. With very few exceptions, metastatic disease from a carcinoma is fatal. Moreover, even for those cancer patients who initially survive their primary cancers, common experience has shown that their lives are dramatically altered. Many cancer patients experience strong anxieties driven by the awareness of the potential for recurrence or treatment failure. Many cancer patients experience physical debilitations following treatment. Many cancer patients experience a recurrence.
Worldwide, prostate cancer is the fourth most prevalent cancer in men. In North America and Northern Europe, it is by far the most common male cancer and is the second leading cause of cancer death in men. In the United States alone, well over 40,000 men die annually of this disease—second only to lung cancer. Despite the magnitude of these figures, there is still no effective treatment for metastatic prostate cancer. Surgical prostatectomy, radiation therapy, hormone ablation therapy, and: chemotherapy continue to be the main treatment modalities. Unfortunately, these treatments are ineffective for many and are often associated with undesirable consequences.
On the diagnostic front, the lack of a prostate tumor marker that can accurately detect early-stage, localized tumors remains a significant limitation in the management of this disease. Although the serum PSA assay has been a very useful tool, its specificity and general utility is widely regarded as lacking in several important respects.
Progress in identifying additional specific markers for prostate cancer has been improved by the generation of prostate cancer xenografts that can recapitulate different stages of the disease in mice. The LAPC (Los Angeles Prostate Cancer) xenografts are prostate cancer xenografts that have survived passage in severe combined immune deficient (SCID) mice and have exhibited the capacity to mimic disease progression, including the transition from androgen dependence to androgen independence and the development of metastatic lesions (Klein et al., 1997, Nat. Med.3:402). More recently identified prostate cancer markers include PCTA-1 (Su et al., 1996, Proc. Natl. Acad. Sci. USA 93: 7252), prostate stem cell antigen (PSCA) (Reiter et al., 1998, Proc. Natl. Acad. Sci. USA 95:1735), and STEAP (Hubert et al., 1999, Proc. Natl. Acad. Sci. USA 96: 14523).
While previously identified markers such as PSA, PSM, PCTA and PSCA have facilitated efforts to diagnose and treat prostate cancer, there is need for the identification of additional markers and therapeutic targets for prostate and related cancers in order to further improve diagnosis and therapy.
SUMMARY OF THE INVENTION
The present invention relates to a novel prostate-specific G protein-coupled receptor up-regulated in prostate cancer, termed PHOR-1. PHOR-1 expression is largely restricted to the prostate, and is markedly up-regulated in prostate tumors. Expression of PHOR-1 in matched normal prostate/tumor samples from advanced prostate cancer patients, using both mRNA and protein detection methods, shows a high degree of up-regulated expression in the tumor tissue, suggesting that PHOR-1 is a useful marker for prostate cancer detection. Analysis of normal/tumor samples from other human cancer patients demonstrates up-regulation of PHOR-1 expression in kidney, uterine, cervical, stomach and rectal cancers as well. In addition, expression of PHOR-1 induces colony growth and modulates cAMP and tyrosine phosphorylation in manners indicative of a functional role in tumorigenesis and transformation, providing a strategic target for cancer therapy.
The structure of PHOR-1 includes seven putative transmembrane domains spanning the 317 amino acid protein sequence. PHOR-1 is expressed at the cell surface, with the N-terminus exposed on the outside of the cell membrane. The PHOR-1 protein is homologous to a large family of olfactory receptors that are expressed in olfactory epithelium and neurons. PHOR-1 exhibits functional activity consistent with other G protein-coupled receptors, suggesting that PHOR-1 plays a critical role in the regulation of cell function, proliferation, and transformation.
A number of potential approaches to the treatment of prostate cancer and other cancers expressing PHOR-1 are described herein. The cell surface orientation and G protein-coupled nature of this receptor presents a number of therapeutic approaches using molecules that target PHOR-1 and its function, as well as molecules that target other proteins, factors and ligands that act through the PHOR-1 receptor. These therapeutic approaches include antibody therapy with anti-PHOR-1 antibodies, small molecule therapies, and vaccine therapies. In addition, given its up-regulated expression in prostate cancer, PHOR-1 is useful as a diagnostic, staging and/or prognostic marker for prostate cancer and, similarly, may be a marker for other cancers expressing this receptor.
The invention provides polynucleotides corresponding or complementary to all or part of the PHOR-1 genes, mRNAs, and/or coding sequences, preferably in isolated form, including polynucleotides encoding PHOR-1 proteins and fragments thereof, DNA, RNA, DNA/RNA hybrid, and related molecules, polynucleotides or oligonucleotides complementary to the PHOR-1 genes or mRNA sequences or parts thereof, and polynucleotides or oligonucleotides which hybridize to the PHOR-1 genes, mRNAs, or to PHOR-1-encoding polynucleotides. Also provided are means for isolating cDNAs and the genes encoding PHOR-1. Recombinant DNA molecules containing PHOR-1 polynucleotides, cells transformed or transduced with such molecules, and host vector systems for the expression of PHOR-1 gene products are also provided.
The invention further provides PHOR-1 proteins and polypeptide fragments thereof, as well as antibodies that bind to PHOR-1 proteins and polypeptide fragments thereof. The antibodies of the invention include polyclonal and monoclonal antibodies, murine and other mammalian antibodies, chimeric antibodies, humanized and fully human antibodies, antibodies labeled with a detectable marker, and antibodies conjugated to radionuclides, toxins or other therapeutic compositions.
The invention further provides methods for detecting the presence of PHOR-1 polynucleotides and proteins in various biological samples, as well as methods for identifying cells that express a PHOR-1. The invention further provides various therapeutic compositions and strategies, including particularly, antibody, vaccine and small molecule therapy, for treating cancers of the prostate, kidney, cervix, uterus, rectum and stomach.
The invention additionally provides a method of identifying a molecule that modulates a biological activity of PHOR-1. The method comprises contacting a molecule with a cell that expresses PHOR-1, assaying a biological activity of PHOR-1 in the presence and absence of the molecule, and determining whether the biological activity of PHOR-1 is altered by the presence of the molecule. An alteration in the biological activity of
Afar Daniel E. H.
Faris Mary
Hubert Rene S.
Jakobovits Aya
Mitchell Steve Chappell
Agensys, Inc.
Davis Minh-Tam
Ungar Susan
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