Abstract: The invention relates generally to in vivo collection of circulating molecules, tumor cells and other biological markers using a collecting probe. The probe is configured for placement within a living organism for an extended period of time to provide sufficient yield of biological marker for analysis.
Type:
Grant
Filed:
April 24, 2008
Date of Patent:
December 27, 2011
Assignee:
John Wayne Cancer Institute
Inventors:
David Hoon, Bret Taback, Samuel Shaolian
Abstract: A method of detecting circulating melanoma or carcinoma cells in a subject. The method comprises obtaining a body fluid from a subject and detecting the expression of a panel of genes in the body fluid, wherein the expression of the panel of genes indicates the presence of circulating melanoma or carcinoma cells in the subject. Genes useful for detecting melanoma cells includes GalNAc-T, MAGE-A3, MART-1, PAX-3, and TRP-2; genes useful for detecting carcinoma cells include C-Met, MAGE-A3, Stanniocalcin-1, Stanniocalcin-2, mammaglobin, HSP27, GalNAc-T, CK20, and ?-HCG. Also disclosed are kits containing agents for detecting the expression of these genes.
Abstract: The invention provides a quantitative realtime RT-PCR assay for detection of metastatic breast, gastric, pancreas or colon cancer cells or metastatic melanoma. The assay allows to predict disease recurrence and survival in patients with AJCC stage I and II, and III disease using multimarker panels. The method for detecting metastatic melanoma cells utilizes panels of markers selected from a group consisting of MAGE-A3, GalNAcT, MART-1, PAX3, Mitf, TRP-2, and Tyrosinase. The method for detecting metastatic breast, gastric, pancreas or colon cancer cells in paraffin-embedded samples utilizes panels of markers selected from a group consisting of C-Met, MAGE-A3, Stanniocalcin-1, mammoglobin, HSP27, GalNAcT, CK20, and ?-HCG.
Abstract: The invention relates generally to in vivo collection of circulating molecules, tumor cells and other biological markers using a collecting probe. The probe is configured for placement within a living organism for an extended period of time to provide sufficient yield of biological marker for analysis. In some embodiments of the invention, active attraction of biological markers are provided. A partial or complete analytic/detection assembly may also be integrated with the probe.
Type:
Grant
Filed:
September 11, 2008
Date of Patent:
August 9, 2011
Assignee:
John Wayne Cancer Institute
Inventors:
David Hoon, Bret Taback, Samuel Shaolian
Abstract: The invention relates to a method of detecting a RET mutant in a melanoma cell. Also disclosed is a method of modulating the activity of a RET mutant in a melanoma cell with an agent that interferes with the activity of the RET mutant.
Type:
Grant
Filed:
November 7, 2008
Date of Patent:
May 17, 2011
Assignee:
John Wayne Cancer Institute
Inventors:
Dave S. B. Hoon, Norihiko Narita, Atsushi Tanemura
Abstract: The invention provides a quantitative realtime RT-PCR assay for detection of metastatic breast, gastric, pancreas or colon cancer cells or metastatic melanoma. The assay allows to predict disease recurrence and survival in patients with AJCC stage I and II, and III disease using multimarker panels. The method for detecting metastatic melanoma cells utilizes panels of markers selected from a group consisting of MAGE-A3, GalNAcT, MART-1, PAX3, Mitf, TRP-2, and Tyrosinase. The method for detecting metastatic breast, gastric, pancreas or colon cancer cells in paraffin-embedded samples utilizes panels of markers selected from a group consisting of C-Met, MAGE-A3, Stanniocalcin-1, mammoglobin, HSP27, GalNAcT, CK20, and ?-HCG.
Abstract: The present invention describes a method for identification and labeling of sentinel lymph nodes (SLNs) and the presence or absence of lymph node metastases as an important diagnostic and prognostic factor in early stage cancers of all types. The method, know as Molecular Lymphatic Mapping, uses traditional dye/radioactive tracer based techniques in conjunction with a nucleic acid marker to identify and label the SLN, not only for current diagnostic methods, but for archival purposes. In addition, MLM can be used to deliver a therapeutic gene or genes to the SLN to activate tumor immunity to tumor cells, and/or to inhibit tumor metastases. The methods may be combined with therapeutic intervention including chemotherapy and radiotherapy.
Abstract: The invention relates to a method of determining whether a human subject is suffering from or at risk for developing pancreatic cancer by determining the methylation level of an ID4 gene promoter or the expression level of an ID4 gene in a biological sample from a human subject. Also disclosed are a method of analyzing the methylation level of an ID4 gene promoter or the expression level of an ID4 gene in a pancreatic cancer cell, and a method of inhibiting the methylation of an ID4 gene promoter or enhancing the expression of an ID4 gene by contacting a pancreatic cancer cell with a compound that decreases the methylation level of an ID4 gene promoter or increases the expression level of an ID4 gene in the cell.
Abstract: The present invention discloses methods of using the methylation status of the COX-2 gene promoter region as a biomarker for a gastric cancer patient to determine a prognosis and a treatment regimen, and to monitor the progress of a treatment regimen.
Abstract: The present invention discloses methods of using the methylation status of the COX-2 gene promoter region as a biomarker for a gastric cancer patient to determine a prognosis and a treatment regimen, and to monitor the progress of a treatment regimen.
Abstract: Methods for diagnosis, prognosis, and treatment of cancer based on the methylation status of the ER-? gene promoter are disclosed. Methylation of the ER-? gene promoter is indicative of cancer and unfavorable prognosis. The cancer can be treated with a demethylation agent.
Abstract: The invention relates to methods for cancer diagnosis, prognosis, and treatment based on the expression or activity levels of RUNX3 and miR-532-5p. Also disclosed is a method of reducing the inhibition of RUNX3 by miR-532-5p with an agent that interferes with the interaction between RUNX3 and miR-532-5p transcripts.
Abstract: A method is provided for assessing allelic losses and hypermethylation of genes in CpG tumor promotor region on specific chromosomal regions in cancer patients, including melanoma, neuroblastoma breast, colorectal, and prostate cancer patients. The method relies on the evidence that free DNA and hypermethylation of genes in CpG tumor promotor region may be identified in the bone marrow, serum, plasma, and tumor tissue samples of cancer patients. Methods of melanoma, neuroblastoma, colorectal cancer, breast cancer and prostate cancer detection, staging, and prognosis are also provided.
Abstract: The invention relates to methods for predicting the outcome of rectal cancer and stratifying a rectal cancer treatment according to the level of DNA methylation at MINT 1, 3, 12, or 17. Also disclosed is a method of detecting rectal adenoma or malignancy based on the level of DNA methylation at MINT 2, 3, or 31.
Abstract: A method of detecting circulating DNA in a body fluid. The method comprises identifying a subject suffering from or at risk for developing cancer, obtaining a body fluid sample from the subject, and determining the sequence integrity of circulating DNA in the sample, wherein the circulating DNA is not purified from the sample.
Type:
Application
Filed:
May 30, 2006
Publication date:
November 12, 2009
Applicant:
JOHN WAYNE CANCER INSTITUTE
Inventors:
Dave S.B. Hoon, Naoyuki Umetani, Eiji Sunami
Abstract: The invention relates to a method of determining whether a human subject is suffering from or at risk for developing pancreatic cancer by determining the methylation level of an ID4 gene promoter or the expression level of an ID4 gene in a biological sample from a human subject. Also disclosed are a method of analyzing the methylation level of an ID4 gene promoter or the expression level of an ID4 gene in a pancreatic cancer cell, and a method of inhibiting the methylation of an ID4 gene promoter or enhancing the expression of an ID4 gene by contacting a pancreatic cancer cell with a compound that decreases the methylation level of an ID4 gene promoter or increases the expression level of an ID4 gene in the cell.
Abstract: The invention relates to a method of detecting melanoma or breast cancer using DNA methylation in MINT17, MINT31, or the promoter region of WIF1, TFPI2, RASSF1A, SOCS1, GATA4, or RAR?2 as a biomarker. Also disclosed are methods of using the biomarker for determining the cancer status and predicting the outcome of the cancer.
Type:
Application
Filed:
December 24, 2008
Publication date:
September 3, 2009
Applicant:
John Wayne Cancer Institute
Inventors:
Dave S.B. Hoon, Atsushi Tanemura, Anneke van Hoesel
Abstract: The invention relates to a method of detecting a RET mutant in a melanoma cell. Also disclosed is a method of modulating the activity of a RET mutant in a melanoma cell with an agent that interferes with the activity of the RET mutant.
Type:
Application
Filed:
November 7, 2008
Publication date:
August 20, 2009
Applicant:
John Wayne Cancer Institute
Inventors:
Dave S.B. Hoon, Norihiko Narita, Atsushi Tanemura
Abstract: The invention relates generally to in vivo collection of circulating molecules, tumor cells and other biological markers using a collecting probe. The probe is configured for placement within a living organism for an extended period of time to provide sufficient yield of biological marker for analysis. In some embodiments of the invention, active attraction of biological markers are provided. A partial or complete analytic/detection assembly may also be integrated with the probe.
Type:
Grant
Filed:
August 27, 2004
Date of Patent:
June 30, 2009
Assignee:
John Wayne Cancer Institute
Inventors:
David Hoon, Bret Taback, Samuel Shaolian
Abstract: The invention relates to a method of detecting LINE-1 (long interspersed nucleotide elements-1) DNA either methylated or unmethylated at the promoter region in a tissue or body fluid sample from a subject. Also disclosed are methods of using LINE-1 DNA as a biomarker for diagnosing, predicting, and monitoring cancer progression and treatment.