Abstract: The disclosure provides methods for identifying genomic loci that are differentially methylated in neoplastic cancers, e.g., esophageal cancers. Identification of methylated genomic loci, and optionally in combination with the identification of somatic mutations in TP53, has numerous uses, including for example, to characterize disease risk, to predict responsiveness to therapy, to non-invasively diagnose subjects and to treat subjects determined to have gastrointestinal neoplasias.

Abstract: The disclosure provides methods for storage solutions for preserving DNA methylation patterns over a period of time. The disclosure also provides for methods of using methylated DNA stored in such storage solutions.

Abstract: The disclosure provides methods for identifying genomic loci (e.g., vimentin and/or SqBE18) that are differentially methylated in metaplasias (e.g., Barrett's esophagus) and/or neoplastic cancers (e.g., esophageal cancers). Identification of methylated genomic loci has numerous uses, including for example, to characterize disease risk, to predict responsiveness to therapy, to non-invasively diagnose subjects and to treat subjects determined to have gastrointestinal metaplasias and/or neoplasias.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: The disclosure provides methods for identifying genomic loci (e.g., vimentin and/or SqBE18) that are differentially methylated in metaplasias (e.g., Barrett's esophagus) and/or neoplastic cancers (e.g., esophageal cancers). Identification of methylated genomic loci has numerous uses, including for example, to characterize disease risk, to predict responsiveness to therapy, to non-invasively diagnose subjects and to treat subjects determined to have gastrointestinal metaplasias and/or neoplasias.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: The disclosure provides methods for identifying genomic loci that are differentially/methylated in neoplastic cancers, e.g., esophageal cancers. Identification of methylated genomic loci, and optionally in combination with the identification of somatic mutations in TP53, has numerous uses, including for example, to characterize disease risk, to predict responsiveness to therapy, to non-invasively diagnose subjects and to treat subjects determined to have gastrointestinal neoplasias.

Abstract: The disclosure provides methods for identifying genomic loci that are differentially methylated in colorectal neoplasias. Identification of methylated genomic loci has numerous uses, including for example, to characterize disease risk, to predict responsiveness to therapy, to non-invasively diagnose subjects and to treat subjects determined to have colorectal neoplasias.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder.

Abstract: This application describes methods and compositions for detecting and treating vimentin-associated neoplasia. Differential methylation of the vimentin nucleotide sequences has been observed in vimentin-associated neoplasia such as neoplasia of the upper or lower gastrointestinal tract, pancreas, and/or bladder. Nucleic acid sequences for regions of vimentin that are found to be differentially methylated are described. The present disclosure further describes bisulfite-converted vimentin template DNA sequences. Oligonucleotide primer sequences for use in assays (e.g., methylation-sensitive PCR assays or HpaII assays) designed to detect the methylation status of the vimentin gene are also described.

Abstract: This disclosure provides methods and compositions for inhibiting immune responses. The disclosure also provides methods and compositions for inhibiting graft rejection and promoting or prolonging graft survival.

Abstract: The disclosure provides, among other things, a method of decreasing resistance to the chemopreventive properties of non-steroidal anti-inflammatory agents, e.g., celecoxib, particularly in the prevention of cancer, e.g., colon cancer, by increasing the levels or activity of 15-hydroxyprostaglandin dehydrogenase (15-PGDH). The disclosure also provides a method of identifying compounds that upregulate or reactivate 15-PGDH. The disclosure also provides a method of identifying an individual suitable for treatment with a non-steroidal anti-inflammatory agent in the treatment or prevention of colon cancer.

Abstract: The present application provides methods for characterizing colon cancer patients by measuring their ColoUp-1 expression levels. In particular, the present application provides among other things methods for determining the survival prognosis of colon cancer patients and methods for determining the efficacy of treatment regimens of colon cancer patients.

Abstract: The disclosure provides, among other things, molecular markers for categorizing the neoplastic state of a patient, methods for using the molecular markers in diagnostic tests, nucleic acid and amino acid sequences related to the molecular markers, reagents for detection of molecular markers, and methods for identifying candidate molecular markers in highly parallel gene expression data.

Abstract: The disclosure provides, among other things, molecular markers for categorizing the neoplastic state of a patient, methods for using the molecular markers in diagnostic tests, nucleic acid and amino acid sequences related to the molecular markers, reagents for detection of molecular markers, and methods for identifying candidate molecular markers in highly parallel gene expression data.

Abstract: Methods are provided for detection of cancers associated with methylation of hMLH1 promoter DNA in a subject. The method comprise assaying for the presence of methylated hMLH1 promoter DNA in a bodily fluid from a subject. In one embodiment, the method comprises reacting DNA from the sample with a chemical compound that converts non-methylated cytosine bases but not methylated cytosine bases, to a different nucleotide base. The compound-converted DNA is then amplified using a methylation-sensitive polymerase chain reaction (MSP) employing primers that amplify the compound-converted DNA template. The present invention also provides nucleotide primer sequences for use in the methylation-sensitive PCR assay.

Abstract: The disclosure provides, among other things, molecular markers for categorizing the neoplastic state of a patient, methods for using the molecular markers in diagnostic tests, nucleic acid and amino acid sequences related to the molecular markers, reagents for detection of molecular markers, and methods for identifying candidate molecular markers in highly parallel gene expression data.